Welcome to Creative Enchitect Website

We are global leader and trusted distributor for many industry’s manufacturers. We continuously are pursuing solutions for our customers to achieve their most challenging goals with innovations and integrity.

Creative Enchitect (M) Sdn Bhd (CEM) has several offices in the region including Hanoi, Philippines, Singapore, South Africa and Malaysia.

CE Group and CEM provide industrial solutions to wide range of industries including Oil & Gas, Construction, Marine, Mining and Electronics etc. We provide industrial solutions to meet challenging industrial requirements. We are committed to deliver satisfaction and quality results, through years of industrial experience and wide range of resources. The synergy of the experience and resources have solved many sophisticated and challenging engineering problems!

Aegis

Nukote Coating Systems International (NCSI) is a manufacturing company focused solely on the development, manufacturing and distribution of advanced polymer coatings, including; fast curing Aromatic, Aliphatic and Polyaspartic Aliphatic Pure Polyureas, Polyurethane and Hybrid Formulations of the two chemistries. We also develop, manufacture and distribute composite systems that utilize our polymer chemistries with secondary materials to produce; Polyurea-Geotextile Composite Liners and Membranes, Polyurea-Polyurethane Foam Insulated Composites and Specific Application Equipment used in the production and application of our products and composites. Nukote is registered entity in the United States of America, with manufacturing plants in the United States, Kingdom of Saudi Arabia and Peoples Republic of China. New manufacturing plants will be operational in Australia and India in 2011. Nukote manages their global operations from two locations; Santa Fe Springs, California USA, where we manage North and South American Operations and Singapore where we manage all other International Operations. Nukote is privately held and is managed by its principals who are based in Singapore and the United States. Our client base includes major regional firms and municipalities as well as multi-national oil and gas, petrochemical, mining and construction firms. Nukote distributes in 25 countries, providing direct support in conjunction with regional teams of qualified applicators in any given global location. Production pipe coating companies utilize Nukote products in both internal and external anti-corrosion systems with approvals in hand from multi-national and national oil and gas companies. Nukote manufactures 73 products conforming to ISO, CE and ASTM standards, which are widely used by industrial, marine, oil and gas, manufacturing, commercial construction, petrochemical containment and entertainment industries.

Reactor H-XP2 and H-XP3

Elastomeric

Nukote Coating Systems International (NCSI) is a manufacturing company focused solely on the development, manufacturing and distribution of advanced polymer coatings, including; fast curing Aromatic, Aliphatic and Polyaspartic Aliphatic Pure Polyureas, Polyurethane and Hybrid Formulations of the two chemistries. We also develop, manufacture and distribute composite systems that utilize our polymer chemistries with secondary materials to produce; Polyurea-Geotextile Composite Liners and Membranes, Polyurea-Polyurethane Foam Insulated Composites and Specific Application Equipment used in the production and application of our products and composites. Nukote is registered entity in the United States of America, with manufacturing plants in the United States, Kingdom of Saudi Arabia and Peoples Republic of China. New manufacturing plants will be operational in Australia and India in 2011. Nukote manages their global operations from two locations; Santa Fe Springs, California USA, where we manage North and South American Operations and Singapore where we manage all other International Operations. Nukote is privately held and is managed by its principals who are based in Singapore and the United States. Our client base includes major regional firms and municipalities as well as multi-national oil and gas, petrochemical, mining and construction firms. Nukote distributes in 25 countries, providing direct support in conjunction with regional teams of qualified applicators in any given global location. Production pipe coating companies utilize Nukote products in both internal and external anti-corrosion systems with approvals in hand from multi-national and national oil and gas companies. Nukote manufactures 73 products conforming to ISO, CE and ASTM standards, which are widely used by industrial, marine, oil and gas, manufacturing, commercial construction, petrochemical containment and entertainment industries.

Reactor 2 H-XP2 and H-XP3

Ceramic Metal

Nukote Coating Systems International (NCSI) is a manufacturing company focused solely on the development, manufacturing and distribution of advanced polymer coatings, including; fast curing Aromatic, Aliphatic and Polyaspartic Aliphatic Pure Polyureas, Polyurethane and Hybrid Formulations of the two chemistries. We also develop, manufacture and distribute composite systems that utilize our polymer chemistries with secondary materials to produce; Polyurea-Geotextile Composite Liners and Membranes, Polyurea-Polyurethane Foam Insulated Composites and Specific Application Equipment used in the production and application of our products and composites. Nukote is registered entity in the United States of America, with manufacturing plants in the United States, Kingdom of Saudi Arabia and Peoples Republic of China. New manufacturing plants will be operational in Australia and India in 2011. Nukote manages their global operations from two locations; Santa Fe Springs, California USA, where we manage North and South American Operations and Singapore where we manage all other International Operations. Nukote is privately held and is managed by its principals who are based in Singapore and the United States. Our client base includes major regional firms and municipalities as well as multi-national oil and gas, petrochemical, mining and construction firms. Nukote distributes in 25 countries, providing direct support in conjunction with regional teams of qualified applicators in any given global location. Production pipe coating companies utilize Nukote products in both internal and external anti-corrosion systems with approvals in hand from multi-national and national oil and gas companies. Nukote manufactures 73 products conforming to ISO, CE and ASTM standards, which are widely used by industrial, marine, oil and gas, manufacturing, commercial construction, petrochemical containment and entertainment industries.

Reactor E-XP2i

Premera

Nukote Coating Systems International (NCSI) is a manufacturing company focused solely on the development, manufacturing and distribution of advanced polymer coatings, including; fast curing Aromatic, Aliphatic and Polyaspartic Aliphatic Pure Polyureas, Polyurethane and Hybrid Formulations of the two chemistries. We also develop, manufacture and distribute composite systems that utilize our polymer chemistries with secondary materials to produce; Polyurea-Geotextile Composite Liners and Membranes, Polyurea-Polyurethane Foam Insulated Composites and Specific Application Equipment used in the production and application of our products and composites. Nukote is registered entity in the United States of America, with manufacturing plants in the United States, Kingdom of Saudi Arabia and Peoples Republic of China. New manufacturing plants will be operational in Australia and India in 2011. Nukote manages their global operations from two locations; Santa Fe Springs, California USA, where we manage North and South American Operations and Singapore where we manage all other International Operations. Nukote is privately held and is managed by its principals who are based in Singapore and the United States. Our client base includes major regional firms and municipalities as well as multi-national oil and gas, petrochemical, mining and construction firms. Nukote distributes in 25 countries, providing direct support in conjunction with regional teams of qualified applicators in any given global location. Production pipe coating companies utilize Nukote products in both internal and external anti-corrosion systems with approvals in hand from multi-national and national oil and gas companies. Nukote manufactures 73 products conforming to ISO, CE and ASTM standards, which are widely used by industrial, marine, oil and gas, manufacturing, commercial construction, petrochemical containment and entertainment industries.

Reactor 2 H-30, H-40 and H-50

Reactor 2 E-30

Reactor H-25, H-40 and H-50

Reactor 2 E-30i

Fusion PC Gun

Fusion ProConnect Gun
LESS PARTS. LESS LABOR. LESS DOWNTIME.

The days of spending time and effort cleaning and rebuilding the fluid section of your spray foam gun are gone. The new Fusion ProConnect (PC) gun features a disposable cartridge head that replaces multiple individual parts with a single component. Simply replacing a cartridge allows for a much faster rebuild, which keeps you spraying and minimizes costly downtime.

 

FUSION AP VS. FUSION PC

Exploded view: Fusion AP vs. Fusion PC

With ProConnect technology in the Fusion PC gun (right), the entire fluid section including side seals and all associated o-rings are replaced by a single cartridge, compared to individual parts like the Fusion AP (left).

PERFORMANCE

The Fusion PC sprays like any Fusion AP. Built on the time-tested Fusion AP platform, the new Fusion PC gun feels just like your Fusion AP and sprays with the same excellent spray pattern you're accustomed to. In fact, many of the same parts are used in the construction of the Fusion PC, so you can actually upgrade your existing Fusion AP guns to take advantage of the new ProConnect technology.


Probler P2

Probler P2 Plural-Component Air-Purge Gun

For high output spray polyurethane foam and polyurea applications

The Probler P2 Gun is lightweight and easy to maneuver – even in difficult spraying positions. Its double piston design provides more than 300 pounds (136 kg) of triggering force – much more than a smaller piston diameter. The Probler P2 reduces maintenance, increases spraying uptime and is easy to use.

The P2 elite:

  • Allows use of additional accessories
  • Alternate side block hose routings
  • Allows filters to be easily removed
  • Easy daily maintenance
  • Responsive trigger action
  • Easy-to-replace mix chamber insert
  • Anti-crossover design virtually eliminates possibility
    of material entering the air piston
  • Ergonomic handle and balanced design

GX7-400 and GX7-DI

GX7-400 and GX7-DI Plural-Component Mechanical-Purge Guns

For low- to medium-volume polyurea applications


The GX7-400 Gun is the same as a standard GX-7, but features a shorter stroke length. This is important for fast-setting polyureas because the material spends less time in the gun.

The GX7-DI Gun features direct impingement mixing, which provides a superior surface finish for polyurea applications. Its spray tip and gun block feature a non-stick coating for easy maintenance.

GX7-400
  • Mechanically self-cleaning eliminates costly solvent flushing
  • Screw-in filter design is easy to remove, clean and service
  • Rebuild kit available for air cylinder and trigger valve
  • Quick-connect coupling block allows fast, clean removal of the gun without any chemical spillage.

GX-8

GX-8 Plural-Component Spray Guns

For very low-output fast-set polyurea, polyurethane and hybrid coatings

The GX-8 Gun is designed for very low output, fast-set polyurea, polyurethane and hybrid coatings. It is designed to save on material consumption by significantly reducing overspray associated with low-output spraying.

  • Solvent-free, mechanically self-cleaning
  • Direct impingement mixing assures high yield per unit of material and superior surface finish
  • More air volume to air cap helps keep the gun's tip cleaner longer

GX-7

GX-7 Plural-Component Spray Guns

For spray polyurethane foam

GX-7 Mechanical-purge gun

  • GX-7, GX-7-DI and GX-7-400 mechanical-purge spray guns for dependable performance and reliability
  • Great mixing and pattern control with its unique internal impingement mixing design
  • Designed to handle the toughest job-site conditions
 
  1. Industry-proven mix and atomization technology
  2. Adjustable air cap cleaning allows you to spray longer
  3. Easy to clean A and B air filter reduce downtime

GAP Pro

GAP Pro Air-Purge Spray Gun

For high output spray polyurethane foam and polyurea applications


  • Designed for construction, bedlining, roofing and other plural-component spraying
  • Hardened steel sids seals and mix chamber for long-lasting performance
  • No adjustments necessary
  • Easy access screens reduce end-of-the-day maintenance time

  1. Easy to clean A and B filters reduce downtime
  2. Low maintenance fasteners are easy to remove with a standard nut-driver
  3. Direct hose connection reduces weight

Fusion Mechanical Purge Gun

Fusion Mechanical Purge Plural-Component Spray Gun

For high output spray polyurethane foam and polyurea applications


Whether you're spraying polyurea coatings or spray foam insulation, the Fusion MP Gun handles it all. Its rugged design provides excellent mix and material properties – giving you great results at the jobsite.

Fusion Mechanical Purge Main Needs
  • Easy mechanical cleaning – mix modules and tips are cleaned with a drill bit
  • Long-lasting PolyCarballoy mix module
  • Advanced mix module and tip provides superior mixing capabilities

Fusion CS Gun

Fusion CS Plural-Component Spray Gun with ClearShot™ Technology

For high output spray polyurethane foam and polyurea applications

ClearShot Technology sets the Fusion CS gun apart from every other applicator. With its revolutionary technology, the Fusion CS is poised to virtually eliminate drilling of the mix chamber - increasing your spraying uptime and reducing downtime spent on maintenance. Flexible for polyurea and foam applications, this gun provides you with versatile advantages.

ClearShot Technology - unprecedented features

Fusion CS Gun application
  • New technology comprised of ClearShot Liquid and disposable, non-reusable ClearShot Cartridge
  • Removes foam and keeps mix chamber clear
  • Saves almost an hour of maintenance time each spray day
  • First-ever liquid purge – reduces purge air by 75% and minimizes foam blowback
  • Easy-to-insert cartridge fits into ergonomic handle
  • Variable flow - an industry first
    • First plural-component gun with variable flow
    • Switch from large to small spray patterns in seconds
    • Gives you more maneuverability to spray in small, tight areas
    • Ten different settings
  • Quick-change front - simpler and cleaner
    • Swap out fluid heads in seconds
    • Non-stick polymer cover keeps gun head cleaner
    • 'Air knife' reduces material build-up
    • Fast and simple change-outs put an end to lengthy interruptions and keep jobs on schedule

Fusion Air Purge

Fusion Air Purge Plural-Component Spray Gun

For high output spray polyurethane foam and polyurea applications

With long-life mix chamber and durable side seals, Fusion guns are designed to reduce maintenance and downtime, and provide a better mix.

  • Easy air-blast tip cleaning reduces build-up and tip clogging.
  • Long-lasting side seals means less downtime for maintenance
  • Quick-release fluid housing - lets you easily change the mix chambers without tools
  • Hand-tightened front cap – no tools needed to clean and maintain seals and mix chamber
  • Ergonomic handle

XTR-5 and XTR-7 Airless Spray Guns

XTR-5 and XTR-7 Airless Spray Guns

Airless spray guns for protective coatings


Rugged, ergonomic design handles the toughest protective coatings

• Oval-insulated or round handle
• EasyGlide swivel for better hose and gun movement
• Easy Out gun filter which reduces tip plugging
 

IMG_0166

The ideal choice for hard-to-spray industrial coatings

  • Variety of handle and trigger options for maximum spraying comfort
  • Compact design allows for easy access to tight places
  • High quality materials and construction
  • XTR-5 maximum fluid pressure: 5000 psi (345 bar, 34.5 MPa)
  • XTR-7 maximum fluid pressure: 7250 psi (500 bar, 50 MPa)

XHD RAC SwitchTip

XHD RAC SwitchTip 

High-Pressure Airless Spray Tip for XTR Guns


Increase spraying productivity and reduce downtime

Designed for spraying high-solids coatings at high pressures. With its Reverse-A-Clean (RAC) Tip, it’s easy to clear clogs. The Switch Tip design lets you change tip sizes in seconds – without removing the tip guard and housing.
 

Saves time – no screwdriver required

  • Change tip sizes in seconds
  • For heavy-duty applications up to 7250 psi (500 bar)
  • Recommended for use with Xtreme Sprayers and XTR Guns
  • Heavy-duty carbide tip

T1, T2 and T3 Transfer Pumps

T1, T2 and T3 Transfer Pumps Transfer Pumps

Ideal for moving A and B materials to Reactor spray machines



Graco's family of transfer pumps maintain performance in any environment. Transfer pumps are required to feed chemical to your Reactor spray machine or any other equipment requiring fluid transfer. Consider your material viscosities, desired output rate, interior ceiling height of your rig, and available air pressure when choosing your ideal transfer pump.

  • Provide consistent feed pressures and flow rates for dependable results
  • Lower pressure drops with higher viscosity materials at any ambient temperature
  • Designed and manufactured by the worldwide leader in pump technology
  • Longer lasting pump - designed for durability with less maintenance
  • Quick-release bung adapter for easy drum removal without interference from hose connections
  • Stainless steel wetted parts for corrosion-resistance
  • PTFE seals for improved performance and less maintenance

Reactor Heated Hose

Reactor Heated Hose Low- and High-Pressure Heated Hose

For Reactor proportioners

Critical to your Reactor system

Graco’s heated hoses are designed specifically for use with Reactor Equipment. Hoses are a key component to the total system, making it important to achieve accurate and uniform heating for the best application possible.

New multi-strand copper heating element has greatly increased hose quality:

  • Provides 10-times* the flex life compared to previous flat copper heating element
  • Long-term, even heating without hot spots
  • Backwards compatible with existing Reactor heated hoses

*Testing based on 1/4 in. 2000 psi heated hose

Reactor Xtreme-Wrap Heated Hose Application

New Xtreme-Wrap Scuff Guard

Xtreme-Wrap Scuff Guard is now the standard scuff guard for Graco's whip hoses models 246050 and 246055. It may be ordered with other selected hoses or as a kit to replace the standard scuff guard on any existing Graco hose.

  • Form fitting to the hose, no more baggy excess material
  • Made from urethane coated ballistic nylon for puncture and tear resistance, abrasion protection, and oil and water resistance
  • Sheds surface moisture and won't absorb water to weigh down the hose bundle; will not freeze solid in cold temperatures
  • Hook and Loop enclosure used on the entire length of the hose for easy access to the hoses, fittings, and fluid temperature sensors











Reactor Hose Joint Protector

Joint Protectors

Joint Protectors provide additional protection at the most vulnerable section of the hose: the electrical connections, hose fittings, and fluid temperature sensors. All 50 ft hoses with the new Xtreme-Wrap will come with one Joint Protector.


YHR Bolted Tank

Coventionally Reinforced Concrete and steel welded were the choices for tank constructions; however bolted tanks have proven to be able to solve the constructional difficulties of these conventional tanks
  • Bolted tanks take lesser time to be erected/installed compared to RC and steel welded tanks - the steel panels are pre-fabricated and being assembled on site. Another name of bolted tank is ''lego tank'', in which the steel panels are joint by bolts and nuts at site; jacking system to erect up one layer by layer. A typical tank would only need days to be erected.
  • As bolted tanks could be erected using jacking system, in which it does not consume much spaces around the circumference of a tank. A bolted tank can usually be erected within a confined/narrow space.
  • Bolted tanks are expandable, where the tanks can usually cope with the capacity/storage expansion of plant operation. The nature of the construction is ''lego'' £®joined , hence it is easily expandable.
  • Bolted tanks are easily to be dismantled. Many of the storage tanks are only meant to be temporary, hence bolted tanks would minimise the cost of dismantle (compared to RC tanks & welded steel tanks). However bolted tanks' designed service life could be as long as 30 years, hence the tanks are not only meant for temparary they could also operate long.   

HEAT&ABRASION RESISTANT CERAMIC COMPOSITE epigen XD001

A trowellable, high performance solventless, two component polymer composite containing graded ceramic particles in an epoxy resin, designed to meet the highest standards of elevated temperature service, chemical resistance, and corrosion protection.
 
The polymer composite comprises medium grading of sintered ceramic of extreme hardness and resistance to abrasion for the treatment of steel and brick in applications where temperatures may exceed 150 Celsius or the substrate requires protection from hot chemicals.
 
Extremely high reaction cross linking density affords XD001 the ability to resist a range of organic solvents including ketones and chlorinated aromatics . Also highly favoured where the lining is required to address hot highly corrosive acids.
 
The surface finish may be applied as a thin film with 5mm recommended to be the minimum. It is acceptable to apply high builds in most situations to maximize life but thinner applications require review for void formation that could lead through to the substrate.

TYPICAL APPLICATIONS
  • Exhaust Stacks                       
  • Tanks & Vessels
  • Flanges                                   
  • Bearing Faces
  • Pumps & Impellors                  
  • Ducting Systems
  • Rail Cars                                 
  • Scrubbers
  • Laundries       
  • Steelwork Coating
  • Pipelines & Valves       
  • Solvent Extraction
     
FEATURES
  • Highly corrosion resistant polymer system
  • Free of all solvents - zero VOC
  • Engineered for high mechanical strength
  • Resistant to organic solvents HDT 150 Celsius - Practical service beyond 200 Celsius
  • Outstanding resistance to chemicals & acids
  • Excellent resistance to sliding abrasion
  • Suitable as an adhesive for Ceramic Tiles
  • Tough polymer with high adhesive strength
  • Engineered for high mechanical strength

PROFILE
Ratio by weight                                     2 parts “A” to 1 part “B”
Pot Life minutes @ 20oC                     60
Mixed consistency @ 24oC                 Trowellable Paste
Specific gravity when mixed                2.0
Coverage, /m2  @ 10mm                        20.0kg
Tack free time @ 24oC                         180 minutes

TYPICAL CURED PROPERTIES
Compressive strength ASTM D695, Mpa                      >60
Tensile strength ASTM D638, Mpa                               >25
Flexural strength ASTM D790, Mpa                             >30
Hardness, Shore D                                                          >90
Elongation ASTM D638, %                                           0.1
Thermal conductivity ASTM C177, Kcal/m.hroC          0.6
Maximum exposure temperature, o C                              240*
Heat deflection temperature ASTM D648,  o C              150
Thin Film Gel @ 10mm, Minutes                                   180
Thin Film Set @ 10mm, Minutes                                   240
Ambient cure time to Service @ 10mm, Hours               36
Thin Film Gel @ 20mm, Minutes                                   120
Thin Film Set @ 20mm, Minutes                                   180
Ambient cure time to Service @ 20mm, Hours               24
* Thermal degradation temperature. This does not necessarily represent the ultimate maximum permissable temperature.This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.

SURFACE PREPARATION

Methods for substrate preparation may include chemical means such as washing & etching, high pressure water blasting, or traditional abrasive blasting techniques.Caution should be maintained in selecting a technique that provides satisfactory anchor for the lining.Specialist advice is available from Peerless Industrial Systems to ensure the correct preparation procedure is employed for specific applications.
 

APPLICATION

Mixing of product should be carried out using slow speed mixers or spatulas, and completed by adding to the component “A”, the component “B”. Ensure the mix is homogenous and free from lumps.
Application can be carried out by applying mixed com- pound directly to the desired area or component with gloved hands or by tools such as paint scrapers, putty knives or flat steel trowels, the latter mainly for large horizontal areas. Application can be carried out with relative ease on vertical or horizontal surfaces.
Note : Re-application or second coat application over cured XD-001 should only be carried out after abrading back the existing application.
 
POSTCURE
To acheive full cross linking density and maximum performance, applied product should be allowed to “gel” or become “tack free” before applying heat cure.
 Heat curing can be carried out by:

  1. Post gel at 50°C for 6 - 8 hours using heat lamps, etc.
  2. Followed by post cure for 6 - 8 hours at 120°C. Step (b) can be carried out by insitu curing.
CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

Acetic Acid, 10 % 2 Acetone 1
Acetic Acid, Glacial 2 Ammonium Chloride 1
Hydrochloric Acid, 5 % 1 Beer 1
Hydrochloric Acid, 10 % 1 Dichloromethane 2
Hydrochloric Acid, conc 1 Diesel Fuel 1
Nitric Acid, 5 % 2 Isopropyl Alcohol 1
Nitric Acid, 10 % 2 Kerosene 1
Phosphoric Acid, 5 % 1 Petrol 1
Phosphoric Acid, 20 % 1 Salt Water 1
Sulfuric Acid, 5 % 1 Sewage 1
Sulfuric Acid, 20 % 1 Skydrol 1
Ammonium Hydroxide, 5 % 1 Sodium Cyanide 1
Ammonium Hydroxide, 20 % 1 Sodium Hypochlorite 1
Potassium Hydroxide, 5 % 1 Toluene 2
Potassium Hydroxide, 20 % 1 Trichloroethane 1
Sodium Hydroxide, 5 % 1 Wine 1
Sodium Hydroxide, 20 % 1 Xylene 1

EVERY EFFORT SHOULD BE MADE TO PROTECT AGAINST CARBAMATE FORMATION DURING APPLICATION IF RECOATING. CONSULT WITH THE MANUFACTURER FOR MORE DETAILS.

 
CURE
Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing.


TROWELLABLE HIGH PERFORMANCE ABRASION RESISTANT COATING epigen XD008

A ceramic filled, high performance, solvent free putty for use in abrasive conditions across a broad range of applications, the XD008 is designed to perfom where high standards of temperature and chemical resistance are required.
 
The polymer composite comprises graded sintered ceramic of extreme hardness and resistance to abrasion for the treat- ment of steel, concrete and brick in applications where tem- peratures may routinely approach 130 Celsius and have short term excursions to 160 Celsius, or if the substrate requires protection from hot chemicals.
 
Highly reactive cross linking density provides XD008 with the ability to resist a range of organic solvents.
 
The surface finish may be applied as a thin film up to 4mm. It is acceptable to apply high builds of 8mm in most cases to maximize life but thinner applications require review for void formation that could lead through to the substrate.
 
TYPICAL APPLICATIONS
  • Exhaust Stacks                       
  • Tanks & Vessels
  • Flanges                                   
  • Bearing Faces
  • Pumps & Impellors                  
  • Ducting Systems
  • Scrubbers                               
  • Steelwork Coating
  • Pipelines & Valves                   
  • Agitators and Fans

FEATURES
  • Excellent resistance to abrasion
  • Suitable as an adhesive for Ceramic Tiles
  • Tough polymer with high adhesive strength
  • Engineered for high mechanical strength
  • Highly corrosion resistant polymer system
  • Free of all solvents - zero VOC
  • Resistant to organic solvents HDT 120 Celsius - Practical service to 160 Celsius
  • Outstanding resistance to chemicals & acids

PROFILE
Ratio by weight                                     2 parts “A” to 1 part “B”
Pot Life minutes @ 20oC                    30
Mixed consistency @ 24oC                 Thixotropic Putty
Specific gravity when mixed                 2.0
Coverage, /m2  @ 10mm                      20kg
Tack free time @ 24oC                         180 minutes

TYPICAL CURED PROPERTIES

Compressive strength ASTM D695, Mpa 80
Tensile strength ASTM D638, Mpa 22
Flexural strength ASTM D790, Mpa 24
Hardness, Shore D 90
Elongation ASTM D638, % 0.6
Thermal conductivity ASTM C177, Kcal/m.hroC 0.6
Maximum exposure temperature, o C 160*
Heat deflection temperature ASTM D648, o C 125
Thin Film Gel @ 2mm, Minutes 120
Thin Film Set @ 2mm, Minutes 240
Ambient cure time to Service @ 2mm, Hours 36

* Thermal degradation temperature. This does not necessarily represent the ultimate maximum permissable temperature.This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.

SURFACE PREPARATION

Methods for substrate preparation may include chemical means such as washing & etching, or traditional abrasive blasting techniques .Caution should be maintained in selecting a technique that provides satisfactory anchor for the lining.Specialist advice is available from Peerless Industrial Systems to ensure the correct preparation procedure is employed for specific applications.
 
APPLICATION
Mixing of product should be carried out using slow speed mixers or spatulas, and completed by adding to the component “A”, the component “B”. Ensure the mix is homogenous and free from lumps.
 
Application can be carried out by applying mixed XD008 directly to the desired area or component with gloved hands or by tools such as paint scrapers, putty knives or flat steel trowels, the latter mainly for large horizontal areas. Application can be carried out with relative ease on vertical or horizontal surfaces.
Note : Re-application or second coat application over cured Epigen XD008 should only be carried out after abrading back the existing application.
 

 
POSTCURE
Epigen XD008 is formulated to have rapid achievement of toughness and chemical resistance without applied post cure. Under harsh first service shock conditions or in other arduous instances, immediate need for maximum properties may be required to acheive full cross linking density and maximum performance.
Applied product should be allowed to “gel” or become “tack free” before applying heat cure. This will take several hours at 25°C.
 
Heat curing can be carried out by:

  1. Post gel at 50°C for 6 - 8 hours using heat lamps, etc.
  2. Followed by post cure for 6 - 8 hours at 120°C. Excessive heat should be avoided during the gel stage to protect against sag and curtaining. Tests have shown that, at an air temperature of 50°C and DFT greater than 10mm, this product will gel satisfactorily without sagging.
EVERY EFFORT SHOULD BE MADE TO PROTECT AGAINST CARBAMATE FORMATION DURING APPLICATION IF RECOATING. CONSULT WITH THE MANUFACTURER FOR MORE DETAILS.

CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

Acetic Acid, 10 % 2 Acetone 2
Acetic Acid, Glacial 2 Ammonium Chloride 1
Hydrochloric Acid, 5 % 1 Beer 1
Hydrochloric Acid, 10 % 1 Dichloromethane 3
Hydrochloric Acid, conc 1 Diesel Fuel 1
Nitric Acid, 5 % 2 Isopropyl Alcohol 1
Nitric Acid, 10 % 2 Kerosene 1
Phosphoric Acid, 5 % 1 Petrol 1
Phosphoric Acid, 20 % 1 Salt Water 1
Sulfuric Acid, 5 % 1 Sewage 1
Sulfuric Acid, 20 % 2 Skydrol 1
Ammonium Hydroxide, 5 % 1 Sodium Cyanide 1
Ammonium Hydroxide, 20 % 1 Sodium Hypochlorite 1
Potassium Hydroxide, 5 % 1 Toluene 3
Potassium Hydroxide, 20 % 1 Trichloroethane 1
Sodium Hydroxide, 5 % 1 Wine 1
Sodium Hydroxide, 20 % 1 Xylene 2
CURE
Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing.




BRUSHABLE HIGH PERFORMANCE ABRASION RESISTANT COATING epigen XD008BR

A ceramic filled, high performance, solvent free coating to combat abrasive conditions in a broad range of applications, the XD008BR is designed to meet high standards of high temperature and chemical resistance providing additional benefits in superior adhesive strength, chemical resistance, and mechanical properties.
 
The polymer composite comprises fine grading of sintered ceramic of extreme hardness and resistance to abrasion for the treatment of steel, concrete and brick in applications where temperatures may routinely approach 130 Celsius and have short term excursions to 160 Celsius, or if the substrate requires protection from hot chemicals.
 
Highly reactive cross linking density affords XD008BR the ability to resist a range of organic solvents.
 
The surface finish may be applied as a thin film up to 2mm. It is acceptable to apply high builds in most situations to maximize life but thinner applications require review for void formation that could lead through to the substrate.

TYPICAL APPLICATIONS
  • Exhaust Stacks                       
  • Tanks & Vessels
  • Flanges                                   
  • Bearing Faces
  • Pumps & Impellors                  
  • Ducting Systems
  • Scrubbers                               
  • Steelwork Coating
  • Pipelines & Valves
  • Agitators and Fans
     
FEATURES
  • Highly corrosion resistant polymer system
  • Free of all solvents - zero VOC Engineered for high mechanical strength
  • Resistant to organic solvents HDT 120 Celsius - Practical service to 160 Celsius
  • Outstanding resistance to chemicals & acids
  • Excellent resistance to sliding abrasion
  • Suitable as an adhesive for Ceramic Tiles
  • Tough polymer with high adhesive strength
  • Engineered for high mechanical strength

 


PROFILE
Ratio by weight                                    2 parts “A” to 1 part “B”
Pot Life minutes @ 20oC                     30
Mixed consistency @ 24oC                 Thick Liquid Specific gravity when mixed     1.8
Coverage, /m2 @ 2mm                         3.6kg
Tack free time @ 24oC                         180 minutes

TYPICAL CURED PROPERTIES

Compressive strength ASTM D695, Mpa 90
Tensile strength ASTM D638, Mpa 24
Flexural strength ASTM D790, Mpa 26
Hardness, Shore D 90
Elongation ASTM D638, % 0.8
Thermal conductivity ASTM C177, Kcal/m.hroC 0.6
Maximum exposure temperature, o C 160*
Heat deflection temperature ASTM D648, o C 125
Thin Film Gel @ 2mm, Minutes 120
Thin Film Set @ 2mm, Minutes 240
Ambient cure time to Service @ 2mm, Hours 36
 
* Thermal degradation temperature. This does not necessarily represent the ultimate maximum permissable temperature.This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.

SURFACE PREPARATION

Methods for substrate preparation may include chemical means such as washing & etching, or traditional abrasive blasting techniques .Caution should be maintained in selecting a technique that provides satisfactory anchor for the lining.Specialist advice is available from Peerless Industrial Systems to ensure the correct preparation procedure is employed for specific applications.

APPLICATION
Mixing of product should be carried out using slow speed mixers or spatulas, and completed by adding to the component “A”, the component “B”. Ensure the mix is homogeneous and free from lumps.
Application can be carried out by applying mixed com- pound directly to the desired area or component with brush, squeegee, or by tools such as paint scrapers, putty knives or flat steel trowels, the latter mainly for large horizontal areas. Application can be carried out with relative ease whether in either vertical or horizontal con- figurations.
Note : Re-application or second coat application over cured Epigen XD008BR should only be carried out after abrading back the existing application.
 
POSTCURE
Epigen XD008BR is formulated to have rapid achievement of toughness and chemical resistance without applied post cure. Under harsh first service shock conditions or in other arduous instances, immediate need for maximum properties may be required to acheive full cross linking density and maximum performance.Applied product should be allowed to “gel” or become “tack free” before applying heat cure. This will take several hours at 25°C.
Heat curing can be carried out by:

  1. Post gel at 50°C for 6 - 8 hours using heat lamps, etc.
  2. Followed by post cure for 6 - 8 hours at 120°C. Excessive heat should be avoided during the gel stage to protect against sag and curtaining. Tests have shown that, at an air temperature of 50°C and DFT of 1000 micron, this product will gel satisfactorily without sagging.

EVERY EFFORT SHOULD BE MADE TO PROTECT AGAINST CARBAMATE FORMATION DURING APPLICATION IF RECOATING. CONSULT WITH THE MANUFACTURER FOR MORE DETAILS.

CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

Acetic Acid, 10 % 2 Acetone 2
Acetic Acid, Glacial 2 Ammonium Chloride 1
Hydrochloric Acid, 5 % 1 Beer 1
Hydrochloric Acid, 10 % 1 Dichloromethane 3
Hydrochloric Acid, conc 1 Diesel Fuel 1
Nitric Acid, 5 % 2 Isopropyl Alcohol 1
Nitric Acid, 10 % 2 Kerosene 1
Phosphoric Acid, 5 % 1 Petrol 1
Phosphoric Acid, 20 % 1 Salt Water 1
Sulfuric Acid, 5 % 1 Sewage 1
Sulfuric Acid, 20 % 2 Skydrol 1
Ammonium Hydroxide, 5 % 1 Sodium Cyanide 1
Ammonium Hydroxide, 20 % 1 Sodium Hypochlorite 1
Potassium Hydroxide, 5 % 1 Toluene 3
Potassium Hydroxide, 20 % 1 Trichloroethane 1
Sodium Hydroxide, 5 % 1 Wine 1
Sodium Hydroxide, 20 % 1 Xylene 2
CURE
Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing.
 


HIGH TEMP HB LINING epigen 1369

A solventless, high build protective coating, possessing exceptional heat resistance properties under ambient cure conditions. Suitable for use in potable water applications up to 100 celcius, to combat corrosion in tanks, wells, structural members and fluid transfer systems, this high performance, epoxy polymer lining is designed to meet high standards of elevated temperature service and chemical resistance, with minimal relience on post cure.
 
1369 is primarily a barrier coating or lining for the treatment of steel, concrete or brick where temperatures do not ex- ceed 125 Celsius or the substrate requires protection from hot chemicals.
 
Extremely high cross linking density affords 1369 the ability to resist a range of organic solvents and hot corrosive acids.

TYPICAL APPLICATIONS
  • Ducting Systems                    
  • Cooling Towers
  • Exhaust Stacks         
  • Tanks & Vessels
  • Scrubbers      
  • Pipelines & Valves

FEATURES
  • Highly erosion resistant filler within polymer system
  • Application DFT up to 1000 micron in the one coat
  • Free of all solvents - zero VOC
  • Engineered for high mechanical strength
  • Resistant to organic solvents
  • Versatility in application - can be used with GF HDT 125 Celsius - Practical service beyond 150 Celsius
  • Outstanding resistance to acid & alkali
POTABLE WATER SUITABILITY
Assessed to
AS/NZS4020:1999 “PRODUCTS FOR USE IN CONTACT WITH DRINKING WATER”
Passed all requirements at:
a/      20°C cure           45,000mm² per litre
b/     100°C cure          30,000mm² per litre


PROFILE
Ratio by weight                                    5 parts “A” to 1 part “B”
Pot Life minutes @ 24oC                     50
Mixed consistency @ 24oC                 Flowable Liquid
Specific gravity when mixed                1.4
Kg/mfor 500 micron                          0.7
Tack free time @ 24oC                        140 minutes

TYPICAL CURED PROPERTIES
Compressive  strength  ASTM D695, Mpa                    >110
Tensile  strength ASTM D638, Mpa                               >28
Flexural strength ASTM D790, Mpa                               >50
    Hardness, Shore D                                                          89
Dielectric constant ASTM  D150 (150KHz)                  3.0
Maximum exposure temperature, o C                             180*
Heat deflection temperature ASTM D648,  o C          125
* Thermal degradation temperature. This does not necessarily represent the ultimate maximum permissable temperature.This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.

SURFACE PREPARATION

Methods for substrate preparation may include chemical means such as washing & etching, high pressure water blast- ing, or traditional abrasive blasting techniques .
Caution should be maintained in selecting a technique that provides satisfactory anchor for the lining.
Specialist advice is available to ensure correct preparation procedure is employed for specific applications.
 

APPLICATION

Mixing of product should be carried out using slow speed mixers and completed by adding to the part “A”, the part “B”. Ensure the mix is homogenus and free from lumps. Avoid air entrainment.

Epigen 1369 can be applied either by airless spray, brush or roller. Since it does not contain solvents, application by spray allows the application of high film thicknesses in single coats, and ensures minimal issues with solvent entrapment or shrinkage. Epigen 1369 is of higher viscosity than conventional solvent containing coatings and application may require more specialised practices but is generally compensated for by the speed of application and need to apply fewer coats.
Epigen 1369 provides functional performance as a coating or lining . It may not provide asthetic properties such as high gloss or colour retention.
Note : Re-application or second coat application over cured Epigen 1369 should only be carried out after abrading back the existing application.
 
POSTCURE
Epigen 1369 is formulated to have rapid achievement of toughness and chemical resistance without post cure. Under harsh first service shock conditions or in other arduous instances, immediate need for maximum properties may be required to acheive full cross linking density and maximum performance.
Applied product should be allowed to “gel” or become “tack free” before applying heat cure. This will take several hours at 25°C.
Heat curing can be carried out by:

  1. Post gel at 50°C for 6 - 8 hours using heat lamps, etc.
  2. Followed by post cure for 6 - 8 hours at 120°C. Excessive heat should be avoided during the gel stage to protect against sag and curtaining. Tests have shown that, at an air temperature of 50°C and DFT of 500 micron, this product will gel satisfactorily without sagging. 
EVERY EFFORT SHOULD BE TAKEN TO PROTECT AGAINST AIR ENCAPSULATION & CARBAMATE FORMATION DURING APPLICATION. CONSULT WITH THE MANUFACTURER FOR MORE DETAILS IF UNCLEAR.

CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

Acetic Acid, 10 % 1 Acetone 2
Acetic Acid, Glacial 2 Ammonium Chloride 1
Hydrochloric Acid, 5 % 1 Beer 1
Hydrochloric Acid, 10 % 1 Dichloromethane 2
Hydrochloric Acid, conc 1 Diesel Fuel 1
Nitric Acid, 5 % 1 Isopropyl Alcohol 1
Nitric Acid, 10 % 1 Kerosene 1
Phosphoric Acid, 5 % 1 Petrol 1
Phosphoric Acid, 20 % 1 Salt Water 1
Sulfuric Acid, 5 % 1 Sewage 1
Sulfuric Acid, 20 %    1 Skydrol 1
Ammonium Hydroxide, 5 %    1 Sodium Cyanide 1
Ammonium Hydroxide, 20 %    1 Sodium Hypochlorite 1
Potassium Hydroxide, 5 % 1 Toluene 1
Potassium Hydroxide, 20 % 1 Trichloroethane 2
Sodium Hydroxide, 5 % 1 Wine 1
Sodium Hydroxide, 20 % 1 Xylene 1

 

CURE
Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing.


HEAT RESISTANT HB LINING epigen XD005

A high performance, solventless, epoxy polymer lining designed to meet the highest standards of elevated temperature service, chemical resistance, and corrosion protection.
 
XD005 is primarily a barrier coating or lining suited to treatment of steel, concrete and brick in applications where temperatures may exceed 150 Celsius or the substrate requires protection from hot chemicals.
 
Extremely high cross linking density affords XD005 the ability to resist a range of organic solvents including ketones and chlorinated aromatics . Also highly favoured where the lining is required to address hot highly corrosive acids.

TYPICAL APPLICATIONS
  • Pumps & Impellors                  
  • Ducting Systems
  • Exhaust Stacks                       
  • Tanks & Vessels
  • Rail Cars                                 
  • Scrubbers
  • Laundries                                
  • Steelwork Coating
  • Pipelines & Valves                   
  • Solvent Extraction

FEATURES
  • Highly erosion resistant polymer system
  • Application DFT up to 1000 micron in the one coat
  • Free of all solvents - zero VOC
  • Engineered for high mechanical strength
  • Resistant to organic solvents
  • Versatility in application - can be used with GF HDT 150 Celsius - Practical service beyond 200 Celsius
  • Outstanding resistance to chemicals & acids

PROFILE
Ratio by weight                                    5 parts “A” to 1 part “B”
Pot Life minutes @ 24oC                     60
Mixed consistency @ 24oC                  Flowable Liquid 
Specific gravity when mixed                1.5
Kg/m2   for 500 micron                          0.75
Tack free time @ 24oC                         180 minutes

TYPICAL CURED PROPERTIES
Compressive strength ASTM D695, Mpa                   >110
Tensile strength ASTM D638, Mpa                               >30
Flexural strength ASTM D790, Mpa                             >50
Hardness, Shore D                                                         89
Dielectric constant ASTM D150 (150KHz)                   3.0
Maximum exposure temperature, o C                            240*
Heat deflection temperature ASTM D648,  o C             150
* Thermal degradation temperature. This does not necessarily represent the ultimate maximum permissable temperature.This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.

SURFACE PREPARATION

Methods for substrate preparation may include chemical means such as washing & etching, high pressure water blasting, or traditional abrasive blasting techniques.Caution should be maintained in selecting a technique that provides satisfactory anchor for the lining.Specialist advice is available from Peerless Industrial Systems to ensure the correct preparation procedure is employed for specific applications.
 

APPLICATION

Mixing of product should be carried out using slow speed mixers and completed by adding to the part “A”, the part “B”. Ensure the mix is homogenus and free from lumps. Avoid air entrainment.
XD005 can be applied either by airless spray, brush or roller. Since it does not contain solvents, application by spray allows the application of high film thicknesses in single coats, and ensures that all material purchased actually contributes to the final DFT. XD005 is of higher viscosity than conventional solvent containing coatings and application may require more specialised practices but is generally compensated for by the speed of application and need to apply fewer coats.
XD005 is a functional, industrial finish and is not developed to possess asthetic properties such as high gloss which would enable it to be used where appearance is particularly important.
Note : Re-application or second coat application over cured XD-005 should only be carried out after abrading back the existing application.
 
POSTCURE
To acheive full cross linking density and maximum performance, applied product should be allowed to “gel” or become “tack free” before applying heat cure. This will take several hours at at 25°C.
 
Heat curing can be carried out by:

  1. Post gel at 50°C for 6 - 8 hours using heat lamps, etc.
  2. Followed by post cure for 6 - 8 hours at 120°C. Step (b) can be carried out by insitu curing. Excessive heat should be avoided during the gel stage to protectagainst sag and curtaining. Tests have shown that, at an air temperature of 50°C and DFT of 500 micron, this product will gel satisfactorily without sagging.
 
EVERY EFFORT SHOULD BE TAKEN TO PROTECT AGAINST AIR ENCAPSULATION & CARBAMATE FORMATION DURING APPLICATION. CONSULT WITH THE MANUFACTURER FOR MORE DETAILS IF UNCLEAR.
 
CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

Acetic Acid, 10 % 2 Acetone 1
Acetic Acid, Glacial 2 Ammonium Chloride 1
Hydrochloric Acid, 5 % 1 Beer 1
Hydrochloric Acid, 10 % 1 Dichloromethane 2
Hydrochloric Acid, conc 1 Diesel Fuel 1
Nitric Acid, 5 % 2 Isopropyl Alcohol 1
Nitric Acid, 10 % 2 Kerosene 1
Phosphoric Acid, 5 % 1 Petrol 1
Phosphoric Acid, 20 % 1 Salt Water 1
Sulfuric Acid, 5 % 1 Sewage 1
Sulfuric Acid, 20 % 1 Skydrol 1
Ammonium Hydroxide, 5 % 1 Sodium Cyanide 1
Ammonium Hydroxide, 20% 1 Sodium Hypochlorite 1
Potassium Hydroxide, 5 % 1 Toluene 2
Potassium Hydroxide, 20 % 1 Trichloroethane 1
Sodium Hydroxide, 5 % 1 Wine 1
Sodium Hydroxide, 20 % 1 Xylene 1

CURE
Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing.



HEAT & ABRASION RESISTANT CERAMIC COMPOSITE epigen XD001BR

A high performance solvent free coating filled with ceramic particles to combat abrasive conditions in a broad range of applications. The epoxy resin base designed to meet the highest standards of high temperature service and chemical resistance providing additional benefits in superior adhesive strength, high corrosive resistance, mechanical properties greater than standard, simply designed to meet the highest success in elevated temperature service.
 
The polymer composite comprises fine grading of sintered ceramic of extreme hardness and resistance to abrasion for the treatment of steel, concret and brick in applications where temperatures may exceed 150 Celsius, or if the substrate requires protection from hot chemicals.
 
Extremely high reaction cross linking density affords XD001BR the ability to resist a range of organic solvents including ketones and chlorinated aromatics . Also highly favoured where the lining is required to address hot highly corrosive acids.
 
The surface finish may be applied as a thin film up to 2mm. It is acceptable to apply high builds in most situations to maximize life but thinner applications require review for void formation that could lead through to the substrate.

TYPICAL APPLICATIONS
  • Exhaust Stacks                       
  • Tanks & Vessels
  • Flanges                                   
  • Bearing Faces
  • Pumps & Impellors                  
  • Ducting Systems
  • Scrubbers

FEATURES
  • Highly corrosion resistant polymer system
  • Free of all solvents - zero VOC
  • Engineered for high mechanical strength
  • Resistant to organic solvents HDT 150 Celsius - Practical service beyond 240 Celsius
  • Outstanding resistance to chemicals & acids
  • Excellent resistance to sliding abrasion
  • Suitable as an adhesive for Ceramic Tiles
  • Tough polymer with high adhesive strength
  • Engineered for high mechanical strength

PROFILE

Ratio by weight                                    2 parts “A” to 1 part “B”
Pot Life minutes @ 20oC                     25
Mixed consistency @ 24oC                 Thick Liquid Specific gravity when mixed      1.8
Coverage, /m2 @ 2mm                         3.6kg
Tack free time @ 24oC                         240 minutes
 
TYPICAL CURED PROPERTIES

Compressive strength ASTM D695, Mpa 110
Tensile strength ASTM D638, Mpa 30
Flexural strength ASTM D790, Mpa 33
Hardness, Shore D 90
Elongation ASTM D638, % 0.8
Thermal conductivity ASTM C177, Kcal/m.hroC 0.6
Maximum exposure temperature, o C 240*
Heat deflection temperature ASTM D648, o C 150
Thin Film Gel @ 2mm, Minutes 180
Thin Film Set @ 2mm, Minutes 240
Ambient cure time to Service @ 2mm, Hours 36
 
* Thermal degradation temperature. This does not necessarily represent the ultimate maximum permissable temperature.This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.

SURFACE PREPARATION

Methods for substrate preparation may include chemical means such as washing & etching, or traditional abrasive blasting techniques .Caution should be maintained in selecting a technique that provides satisfactory anchor for the lining.Specialist advice is available from Peerless Industrial Systems to ensure the correct preparation procedure is employed for specific applications.
 

APPLICATION

Mixing of product should be carried out using slow speed mixers or spatulas, and completed by adding to the component “A”, the component “B”. Ensure the mix is homogeneous and free from lumps.
Application can be carried out by applying mixed com- pound directly to the desired area or component with brush, squeegee, or by tools such as paint scrapers, putty knives or flat steel trowels, the latter mainly for large horizontal areas. Application can be carried out with relative ease whether in either vertical or horizontal con- figurations.

Note : Re-application or second coat application over cured XD001BR should only be carried out after abrading back the existing application.

 
POSTCURE
To acheive full cross linking density and maximum performance, applied product should be allowed to “gel” or become “tack free” before applying heat cure.
Heat curing can be carried out by:

  1. Post gel at 50°C for 6 - 8 hours using heat lamps, etc.
  2. Followed by post cure for 6 - 8 hours at 120°C. Step (b) can be carried out by insitu curing.
CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

Acetic Acid, 10 % 2 Acetone 1      
Acetic Acid, Glacial 2 Ammonium Chloride 1      
Hydrochloric Acid, 5 % 1 Beer 1      
Hydrochloric Acid, 10 % 1 Dichloromethane 2      
Hydrochloric Acid, conc 1 Diesel Fuel 1      
Nitric Acid, 5 % 2 Isopropyl Alcohol 1      
Nitric Acid, 10 % 2 Kerosene 1      
Phosphoric Acid, 5 % 1 Petrol 1      
Phosphoric Acid, 20 % 1 Salt Water 1      
Sulfuric Acid, 5 % 1 Sewage 1      
Sulfuric Acid, 20 %    1 Skydrol 1      
Ammonium Hydroxide, 5 %    1 Sodium Cyanide 1      
Ammonium Hydroxide, 20 %    1 Sodium Hypochlorite 1      
Potassium Hydroxide, 5 % 1 Toluene 2      
Potassium Hydroxide, 20 % 1 Trichloroethane 1      
Sodium Hydroxide, 5 % 1 Wine 1      
Sodium Hydroxide, 20 % 1 Xylene 1      
This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.

EVERY EFFORT SHOULD BE MADE TO PROTECT AGAINST CARBAMATE FORMATION DURING APPLICATION IF RECOATING. CONSULT WITH THE MANUFACTURER FOR MORE DETAILS.

 
CURE
Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing


CHEMPROOF REPAIR MORTAR epigen 4030

One of the Chemproof range of products, renowned for extremely high chemical resistance, 4030 is a thixotropic multipurpose epoxy mortar designed for general concrete repair and fairing of damaged bases and structures. Also suitable in adhesive, grouting and caulking applications, the use is primarily where binder/sand combinations of other products cannot acheive the build necessary on inverted, overhead or vertical surfaces.
 
Very tough and durabile, designed for overhead use without the requirement to mix in complex amounts of sand, 20mm builds easily acheived without sag.

TYPICAL APPLICATIONS
  • Rebuilding Spalled Concrete Surfaces
  • Acid Tile Adhesive
  • Applying Fillets and Aris to Concrete Corners and Edges
  • Fairing Pitting or Holes on Steel and Concrete
  • Chemical Anchor & Rock Bolt Adhesive
  • Concrete Crack and Void Repair
 
FEATURES
  • Resistant to a variety of acids and alkali chemicals
  • Easy to trowel in any orientation
  • Non sag viscosity for easy installation
  • Free of all solvents - zero VOC Tough and durable
  • Versatility in application allows concrete patching
  •  Strongly adhesive for optimum adhesion
Epigen 4030 is supplied as a two part kit comprising component “A” resin, and component “B” curative.The entire kit is supplied in a pre weighed convenient size to make on site activities easier.
Peerless Industrial Systems can provide information on specific applications based on industry acceptable practices or historical results.

PROFILE

Colour                                               Off White
Ratio by weight                                 10 parts Component “A”
                                                         
1 part Component “B”
Pot Life minutes @ 24oC                   60
Mixed consistency @ 24oC                 Smooth ThixotorpicMortar 
Specific gravity when mixed                1.5
Coverage /m 2 @ 10mm                  15.0 kg

TYPICAL CURED PROPERTIES
Compressive strength ASTM D695, Mpa 80
Tensile strength ASTM D638, Mpa 18
Flexural strength ASTM D790, Mpa 32
Hardness, Shore D >82
Elongation ASTM D638, % 1.2
Tensile Adhesion ASTM 4541, MPa >12
Thermal conductivity ASTM C177, Kcal/m.hro C 0.6
Coeff of Therm Exp ASTM C531, 10-5/o C 1.9
Maximum exposure temperature, o C 110
Heat deflection temperature ASTM D648, o C 70
Thin Film Gel @ 12mm, Minutes 90
Thin Film Set @ 12mm, Minutes 120
Ultimate cure time, Hours 96

SURFACE PREPARATION

Methods for surface preparation prior to use include using chemical means such as washing & etching, high pressure water blasting, or mechanical techniques such as abrasive blasting, grinding or scarifying.Specialist advice is available from Peerless Industrial Systems to ensure the correct preparation procedure is employed for specific application.

APPLICATION

Mixing of product should be carried out using spatula or by slow speed blender, and completed by adding to the component “A”, component “B”. Ensure the mixed 4030 is homogenous and the final colour shall be an even without streaks.

Concrete Rebuilding:

In all cases, the depth of minimum 4mm should be used to ensure sufficent mortar coverage is in place and afford reasonable compressive strength. There is no maximum thickness requirement. No primer is required to facilite adhesion unless the surface is loose or friable. In cool environments, pre warm the product before use.

Adhesive Applications:

Apply a thin coat of Epigen 4030 to both surfaces before bringing the two together. Do not use where a flexible or resilient glue line is required. Preheat the material before use to achieve best cure rate and strength when cold.

Crack & Cevice Repairs:

Open up cracks using a grinder to allow proper access and application directly into crevice or crack.

CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

Acetic Acid, 10 % 2 Acetone 2      
Acetic Acid, Glacial 2 Ammonium Chloride 1      
Hydrochloric Acid, 5 % 1 Beer 1      
Hydrochloric Acid, 10 % 1 Dichloromethane 3      
Hydrochloric Acid, conc 1 Diesel Fuel 1      
Nitric Acid, 5 % 2 Isopropyl Alcohol 1      
Nitric Acid, 10 % 2 Kerosene 1      
Phosphoric Acid, 5 % 1 Petrol 1      
Phosphoric Acid, 20 % 1 Salt Water 1      
Sulfuric Acid, 20 % 1 Sewage 1      
Sulfuric Acid, 75 % 1 Skydrol 1      
Sulfuric Acid, 98 % 2 Sodium Cyanide 1      
Ammonium Hydroxide, 20 %    1 Sodium Hypochlorite 1      
Ammonium Hydroxide, 50 %    1 Toluene 2      
Potassium Hydroxide, 5 % 1 Trichloroethane 2      
Potassium Hydroxide, 20 % 1 Vinegar 1      
Sodium Hydroxide, 20 % 1 Wine 1      
Sodium Hydroxide, 50 % 1 Xylene 2      
This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.
Note : Under acidic conditions, 4030 has been designed to change colour allowing OH&S steps to be taken in cleaning up spills or as a warning to beware.

CURE

Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing.

CHEMPROOF RESIN BINDER FC epigen 4028FC

4028FC is the multipurpose binder providing the ultimate chemical resistance, high strength and fast cure for a solid colour finish. 4028FC is based on high performance Novalac resin technology with a high performance cycloaliphatic amine blend, and maintains solventless character to meet the highest standards of chemical resistance and corrosion protection.
 
Primarily a binder to be used with aggregate or glass fibre in the treatment of steel, concrete and brick in applica- tions where acids, alkalis, organic solvents, alone or in combination rise to problematic conditions. Novalac functionality and high cross linking density is the key stone of 4028FC technology which allows use with a wide variety of aggregates without compromising chemical resistance.

TYPICAL APPLICATIONS
  • Acid Bunds                             
  • Tanks & Vessels
  • Pipelines & Valves                   
  • Acid Sumps & Drains
  • Sulfur Pits                               
  • Concrete Repair
The surface finish may be laid as a thin film however it is recommended 6mm be a minimum in unison with a low porosity aggregate like silica sand if trowel application. It is acceptable to apply high builds in most situations to increase strength. Large areas may be quickly treated using the product with aggregate in the multicoat method, to effective thickness down to 2.5mm

FEATURES
  • Superior Novalac polymer system
  • Free of all solvents - zero VOC
  • Outstanding resistance to chemicals & acids
  • Versatility in application - can be used with GF
  • Suitable in patching or repair of mortar
  • Solid colour finish provides even clean finish
  • Application DFT from to over 40mm in 1 coat
  • Easy to lay large areas with maximum ease
  • Engineered for high mechanical strength
  • Unrestricted service in less than 24 hours

PROFILE
Ratio by weight                                   4 parts “A” to 1 part “B”
Pot Life minutes @ 24oC                     <15
Mixed consistency @ 24oC                 Flowable Liquid
Specific gravity when mixed              1.1
Tack free time @ 24oC                        30 minutes

TYPICAL CURED PROPERTIES
Compressive  strength ASTM D695, Mpa                    >115
Tensile  strength ASTM D638, Mpa                              >26
Flexural  strength ASTM D790, Mpa                            >50
Hardness, Shore D                                                        84
Dielectric  constant ASTM D150 (150KHz)                   3.0
Maximum exposure temperature, o C                          125
Heat deflection temperature ASTM D648,  o C            85
Thin Film Gel , (min recoat time) Minutes                     20
Maximum recoat time, Hours                                        24
Ultimate cure time to Service , Hours                           24
This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.

SURFACE PREPARATION

In line with all cases where good adhesion is expected, the substrate should be reasonably clean and free from loose particles. Methods for substrate preparation include abrasive blasting, etching, grinding or scarifying. The technique best suited depends on the substrate, the service conditions, and practical considerations.

APPLICATION

MORTAR PREPARATION

4028FC is designed to be used as a binder to which aggregate is to be added. Extensive work has resulted in the recommendation of dried silica sand in the range 0.6mm - 1.2mm. This is often referred to as 16/30 mesh size. Variations in porosity and strength may occur when over adding aggregate or in using too fine a grade.
With Silica Sand 16/30 mesh, a ratio of 1 part 4028FC to 4 parts sand provides an ideal trowel on mortar.
The trowel applied mortar may be finished by broadcast- ing sand over the application and sealing with a final coat of Epigen 4028FC to provide a profiled nonslip finish to eliminate any minor porosity.

MULTICOAT APPLICATION

To complete the floor leaving a profiled safe trafficable finish, apply the product directly to the substrate ensuring the product is finished off evenly, removing excess pud- dles or trails. Broadcast graded sand aggregate, nomi- nally 16/30 mesh, over the entire product within 15 min- utes of rolling down the area. Ensure the product is totally blinded out by the sand.
Leave the product to cure for 4-6 hours before carefully sweeping away all loose unbound sand.
Apply another coat of Epigen 4028FC over the entire area to leave the floor with an even appearance and broadcast graded sand aggregate over the entre area.
Leave the product to cure for 4-6 hours before carefully sweeping away all loose unbound sand and applying a final coat of Epigen 4028FC throughout to ensure all sand is thoroughly sealed.

COVERAGE GUIDE
Trowel (final DFT 6mm)
2.2 kg of Epigen 4028FC / m². 9 kg of 16/30 Silica Sand / m².
For vertical applications, replace 16/30 sand with 100 mesh.
 
Non Slip Finish (final film nominally 2.5mm minimum)

Epigen 4028FC  1st coat  4 m2/ kg
16/30 mesh sand  5 kg / m2   
Epigen 4028FC  2nd coat  1.5 m2/ kg
16/30 mesh sand  5 kg / m  
Epigen 4028FC 3rd coat 1.5 m2/ kg

CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

Acetic Acid, 10 % 1 Acetone 1
Acetic Acid, Glacial 2 Ammonium Chloride 1
Hydrochloric Acid, 5 % 1 Beer 1
Hydrochloric Acid, 10 % 1 Dichloromethane 2
Hydrochloric Acid, conc 1 Diesel Fuel 1
Nitric Acid, 5 % 1 Isopropyl Alcohol 1
Nitric Acid, 10 % 2 Kerosene 1
Phosphoric Acid, 10 % 1 Petrol 1
Phosphoric Acid, 35 % 1 Salt Water 1
Sulfuric Acid, 30 % 1 Sewage 1
Sulfuric Acid, 70 % 1 Skydrol 1
Sulfuric Acid, 98 % 1 Sodium Cyanide 1
Ammonium Hydroxide, 5 % 1 Sodium Hypochlorite 1
Ammonium Hydroxide, 20 % 1 Toluene 2
Potassium Hydroxide, 5 % 1 Trichloroethane 1
Potassium Hydroxide, 20 % 1 Wine 1
Sodium Hydroxide, 20 % 1 Xylene 1
Sodium Hydroxide, 50 % 1    
Note : Under acidic conditions, 4028FC has been designed to change colour allowing OH&S steps to be taken in cleaning up spills or as a warning to beware.

CURE
Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing.


CHEMPROOF RESIN BINDER epigen 4028

4028 is the multipurpose binder providing the excellent chemical resistance, high strength and good working life for a solid colour finish. 4028 is based on high perform- ance Novalac resin technology with a high performance cycloaliphatic amine blend, and maintains solventless character to meet the highest standards of chemical resistance and corrosion protection.
 
Primarily a binder to be used with aggregate or glass fibre in the treatment of steel, concrete and brick in applica- tions where acids, alkalis, organic solvents, alone or in combination rise to problematic conditions. Novalac functionality and high cross linking density is the key stone of 4028 technology which allows use with a wide variety of aggregates without compromising chemical resistance.

TYPICAL APPLICATIONS
  • Acid Bunds                             
  • Tanks & Vessels
  • Pipelines & Valves                   
  • Acid Sumps & Drains
  • Sulfur Pits                               
  • Concrete Repair
The surface finish may be laid as a thin film however it is recommended 6mm be a minimum in unison with a low porosity aggregate like silica sand if trowelled. It is acceptable to apply high builds in most situations to increase strength. Large areas may be quickly treated using the product with aggregate in the multicoat method, to effective thickness down to 2.5mm.

FEATURES
  • Superior Novalac polymer system
  • Free of all solvents - zero VOC
  • Outstanding resistance to chemicals & acids
  • Versatility in application - can be used with GF
  • Suitable in patching or repair of mortar
  • Solid colour finish provides even clean finish
  • Application DFT from 6mm to over 40mm in 1 coat
  • Easy to lay large areas with maximum ease
  • Engineered for high mechanical strength

PROFILE
Ratio by weight                                    2 parts “A” to 1 part “B”
Pot Life minutes @ 24oC                     30
Mixed consistency @ 24oC                 Flowable Liquid
Specific gravity when mixed               1.1
Tack free time @ 24oC                         180 minutes

TYPICAL CURED PROPERTIES
Compressive strength ASTM D695, Mpa                      >110
Tensile strength ASTM D638, Mpa                               >26
Flexural strength ASTM D790, Mpa                             >50
Hardness, Shore D                                                          84
Dielectric constant ASTM D150 (150KHz)                   3.0
Maximum exposure temperature, o C                              125
Heat deflection temperature ASTM D648,  o C               70
Thin Film Gel , (min recoat time) Minutes                      75
Maximum recoat time, Hours                                          48
Ultimate cure time to Service , Hours                             96
This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.


 

SURFACE PREPARATION

In line with all cases where good adhesion is expected, the substrate should be reasonably clean and free from loose particles. Methods for substrate preparation include abrasive blasting, etching, grinding or scarifying. The technique best suited depends on the substrate, the service conditions, and practical considerations.

APPLICATION

MORTAR PREPARATION
4028 is designed to be used as a binder to which aggre- gate is to be added. Extensive work has resulted in the recommendation of dried silica sand in the range 0.6mm - 1.2mm. This is often referred to as 16/30 mesh size.
Variations in porosity and strength may occur when over adding aggregate or in using too fine a grade.
In using Silica Sand 16/30 mesh, a mix ratio of 1 part 4028 to 5 parts sand provides an ideal trowel on mortar. The trowel applied mortar may be finished by broadcast- ing sand over the application and sealing with a final coat of Epigen 4028 to provide a profiled nonslip finish to eliminate any minor porosity.
 

MULTICOAT APPLICATION

To complete the floor leaving a profiled safe trafficable finish, apply the product directly to the substrate ensuring the product is finished off evenly, removing excess pud- dles or trails. Broadcast graded sand aggregate, nomi- nally 16/30 mesh, over the entire product within 30 min- utes of rolling down the area. Ensure the product is totally blinded out by the sand.
Leave the product to cure for 8-12 hours before carefully sweeping away all loose unbound sand.
Apply another coat of Epigen 4028 over the entire area to leave the floor with an even appearance and broadcast graded sand aggregate over the entre area.
Leave the product to cure for 8-12 hours before carefully sweeping away all loose unbound sand and applying a final coat of Epigen 4028 throughout to ensure all sand is thoroughly sealed.

COVERAGE GUIDE
Trowel (final DFT 6mm)
1.8 kg of Epigen 4028 / m². 9 kg of 16/30 Silica Sand / m².
For vertical applications, replace 16/30 sand with 100 mesh.
 
Non Slip Finish (final film nominally 2.5mm minimum)

Epigen 4028 1st coat 4 m2 / kg
16/30 mesh sand 5 kg / m2  
Epigen 4028 2nd coat 1.5 m2 / kg
16/30 mesh sand 5 kg / m2  
Epigen 4028 3rd coat 1.5 m2 / kg
     

CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

Acetic Acid, 10 % 2 Acetone 2
Acetic Acid, Glacial 2 Ammonium Chloride 1
Hydrochloric Acid, 5 % 1 Beer 1
Hydrochloric Acid, 10 % 1 Dichloromethane 3
Hydrochloric Acid, conc 1 Diesel Fuel 1
Nitric Acid, 5 % 2 Isopropyl Alcohol 1
Nitric Acid, 10 % 2 Kerosene 1
Phosphoric Acid, 5 % 1 Petrol 1
Phosphoric Acid, 20 % 1 Salt Water 1
Sulfuric Acid, 20 % 1 Sewage 1
Sulfuric Acid, 75 % 1 Skydrol 1
Sulfuric Acid, 98 % 2 Sodium Cyanide 1
Ammonium Hydroxide, 20 % 1 Sodium Hypochlorite 1
Ammonium Hydroxide, 50 % 1 Toluene 2
Potassium Hydroxide, 5 % 1 Trichloroethane 2
Potassium Hydroxide, 20 % 1 Vinegar 1
Sodium Hydroxide, 20 % 1 Wine 1
Sodium Hydroxide, 50 % 1 Xylene 2
Note : Under acidic conditions, 4028 has been designed to change colour allowing OH&S steps to be taken in cleaning up spills or as a warning to beware.

CURE

Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing.

CHEMPROOF FLOOR TOP FC epigen 4040FC

4040FC is the state of art binder providing the ultimate chemical resistance, high strength and fast cure that is peerless. 4040FC is based on high performance Novalac resin technology with a fast acting cycloaliphatic amine, and maintains solventless character to meet the highest standards of chemical resistance and corrosion protection achievable.
 
Primarily a binder to be used with aggregate or glass fibre in the treatment of steel, concrete and brick in applica- tions where acids, alkalis, organic solvents, alone or in combination rise to problematic conditions. Novalac functionality and high cross linking density is the key stone of 4040FC technology which allows addition of a wide variety of aggregates without compromising chemical resistance.

TYPICAL APPLICATIONS
  • Acid Bunds                             
  • Tanks & Vessels
  • Pipelines & Valves                   
  • Acid Sumps & Drains
  • Sulfur Pits                               
  • Concrete Repair
The surface finish may be laid as a thin film however it is recommended 6mm be a minimum in unison with a low porosity aggregate like silica sand. It is acceptable to apply high builds in most situations to increase strength. Application to inverted surfaces can be easily carried out without sag or fall when using fine grade aggregate. Large areas may be quickly treated preparing the product in self levelling mode.

FEATURES
  • Superior Novalac polymer system
  • Free of all solvents - zero VOC
  • Outstanding resistance to chemicals & acids
  • Versatility in application - can be used with GF
  • Suitable in patching or repair of mortar
  • Fast Cure allows rapid return to service
  • Application DFT from 6mm to over 40mm in 1 coat.
  • Unrestricted service in less than 24 hours.
  • Engineered for high mechanical strength.
  • Versatility in application, in any orientation.
PROFILE
Ratio by weight                                    3 parts “A” to 1 part “B”
Pot Life minutes @ 24oC                     <15
Mixed consistency @ 24oC                 Flowable Liquid
Specific gravity when mixed                1.1
Tack free time @ 24oC                         30 minutes

TYPICAL CURED PROPERTIES
Compressive strength ASTM D695, Mpa                   >115
Tensile strength ASTM D638, Mpa                              >26
Flexural strength ASTM D790, Mpa                             >50
Hardness, Shore D                                                        84
Dielectric constant ASTM D150 (150KHz)                  3.0
Maximum exposure temperature, o C                           125
Heat deflection temperature ASTM D648,  o C             85
Thin Film Gel , (min recoat time) Minutes                      20
Maximum recoat time, Hours                                         24
Ultimate cure time to Service , Hours                            24
This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made

APPLICATION

Mixing of product should be carried out using slow speed mixers or spatulas, and completed by adding to the component “A”, the component “B”. Ensure the mix is homogenus and free from lumps.Retain some of the resin mix for priming of the substrate as required.

MORTAR PREPARATION

4040FC is designed to be used as a binder to which aggregate is to be added. Extensive work has resulted in the recommendation of dried silica sand in the range 0.6mm - 1.2mm. This is often referred to as 16/30 mesh size. Variations in porosity and strength may occur when over adding aggregate or in using too fine a grade.

TROWEL
In using Silica Sand 16/30 mesh, a mix ratio of 1 part 4040FC to 5 parts sand provides an ideal trowel on mortar.
SELF LEVELLING
Mix 1 part 4040FC to 1.5 parts 30/50 sand and after applying and using a spiked roller to address air entrain- ment, blind out by broadcasting 16/30 sand over top.Sweep off excess and top coat as required. 
VERTICAL SURFACES
Prime the surface with a very thin coat of 4040FC binder and then proceed to apply a mortar based on 1 part 4040FC to 5 parts 100 mesh silica sand.

COVERAGE GUIDE
Trowel (final DFT 6mm)
1.8 kg of Epigen 4040 / m². 9 kg of 16/30 Silica Sand / m².
For vertical applications, replace 16/30 sand with 100 mesh.
Self Levelling (nominally 3mm)
1.4 kg of Epigen 4040 / m².
2.1 kg of 30/50 Silica Sand / m².
Apply this mortar to nominally 2mm followed by broadcasting: 16/30 Silica Sand @ 1.4 kg/ m².
After set, a seal coat is recommended using:
Epigen 4040 or Epigen 4028 @ 0.7 kg/ m².

CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact


Acetic Acid, 10 % 1 Acetone 1
Acetic Acid, Glacial 2 Ammonium Chloride 1
Hydrochloric Acid, 5 % 1 Beer 1
Hydrochloric Acid, 10 % 1 Dichloromethane 2
Hydrochloric Acid, conc 1 Diesel Fuel 1
Nitric Acid, 5 % 1 Isopropyl Alcohol 1
Nitric Acid, 10 % 2 Kerosene 1
Phosphoric Acid, 10 % 1 Petrol 1
Phosphoric Acid, 35 % 1 Salt Water 1
Sulfuric Acid, 30 % 1 Sewage 1
Sulfuric Acid, 70 % 1 Skydrol 1
Sulfuric Acid, 98 % 1 Sodium Cyanide 1
Ammonium Hydroxide,5% 1 Sodium Hypochlorite 1
Ammonium Hydroxide,20% 1 Toluene 2
Potassium Hydroxide, 5% 1 Trichloroethane 1
Potassium Hydroxide, 20% 1 Wine 1
Sodium Hydroxide, 20% 1 Xylene 1
Sodium Hydroxide, 50% 1    
Note : Under acidic conditions, 4040FC has been designed to change colour allowing OH&S steps to be taken in cleaning up spills or as a warning to beware.

CURE

Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing.





 
 

CHEMPROOF FLOOR TOP epigen 4040

4040 is a multipurpose binder providing the excellent chemical resistance to a wide range of acids and alkali, in many different applications. 4040 is based on a high performance Novalac resin technology with cycloaliphatic amine and solventless character for inceased OH&S, to meet the highest standards of user safety and corrosion protection.
 
Primarily a binder to be used with aggregate or glass fibre in the treatment of steel, concrete and brick where acids, alkalis, organic solvents, singularly or in combination rise to waste away valuable assets or introduce environmental dangers. Novalac functionality and high cross linking density is the key stone of Chemproof technology which allows addition of a wide variety of aggregates for laminate thickness and abrasion resistance without compromising chemical resistance.

TYPICAL APPLICATIONS
  • Acid Bunds                             
  • Chemical Containment
  • Pipelines & Valves                   
  • Acid Sumps & Drains
  • Concrete Repair                       
  • Laminating
The surface finish may be laid as a thin film however it is recommended 6mm be a minimum in unison with a low porosity aggregate like silica sand. It is acceptable to apply high builds in most situations to increase strength. Application to inverted surfaces can be easily carried out without sag or fall when using fine grade aggregate. Large areas may be quickly treated preparing the product in self levelling mode.

PROFILE
Ratio by weight                                     2 parts “A” to 1 part “B”
Pot Life minutes @ 24oC                     30
Mixed consistency @ 24oC                 Flowable Liquid
Specific gravity when mixed                 1.1
Tack free time @ 24oC                         180 minutes

TYPICAL CURED PROPERTIES
Compressive strength ASTM D695, Mpa                   >110
Tensile strength ASTM D638, Mpa                               >25
Flexural strength ASTM D790, Mpa                             >45
Hardness, Shore D                                                        84
Dielectric constant ASTM D150 (150KHz)                  3.0
Maximum exposure temperature, o C                           120
Heat deflection temperature ASTM D648,  o C             75
Thin Film Gel , (min recoat time) Minutes                      180
Maximum recoat time, Hours                                         48
Ultimate cure time to Service , Hours                            96
This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.

SURFACE PREPARATION

In line with all cases where good adhesion is expected, the substrate should be reasonably clean and free from loose particles. Methods for substrate preparation include abrasive blasting, etching, grinding or scarifying. The technique best suited depends on the substrate, the service conditions, and practical considerations.
Specialist advice is available from Peerless Industrial Systems to ensure the correct preparation procedure is employed for specific applications.

APPLICATION

Mixing of product should be carried out using slow speed mixers or spatulas, and completed by adding to the component “A”, the component “B”. Ensure the mix is homogenous and free from lumps.Retain some of the resin mix for priming of the substrate as required.

MORTAR PREPARATION

4040 is designed to be used as a binder to which aggre- gate is to be added. Extensive work has resulted in the recommendation of dried silica sand in the range 0.6mm - 1.2mm. This is often referred to as 16/30 mesh size.Variations in porosity and strength may occur when over adding aggregate or in using too fine a grade.
TROWEL
In using Silica Sand 16/30 mesh, a mix ratio of 1 part 4040 to 5 parts sand provides an ideal trowel on mortar. As required, sand can be broadcast over top, swept off when cured and overcoated to a raised nonslip.
SELF LEVELLING
Mix 1 part 4040 to 1.5 parts 30/50 sand and after applying and using a spiked roller to address air entrainment, blind out by broadcasting 16/30 sand over top.Sweep off excess and top coat as required.
VERTICAL SURFACES
Prime the surface with a very thin coat of 4040FC binder and then proceed to apply a mortar based on 1 part 4040 with up to 5 parts 100 mesh silica sand.

COVERAGE GUIDE
Trowel (final DFT 6mm)
1.8 kg of Epigen 4040 / m². 9 kg of 16/30 Silica Sand / m².
For Overlay: 1 kg of 16/30 Silica Sand / m² followed by Epigen 4040 or Epigen 4028 @ 0.7 kg/ m².
For vertical applications, replace 16/30 sand with 100 mesh.
Self Levelling (nominally 3mm)
1.4 kg of Epigen 4040 / m².
2.1 kg of 30/50 Silica Sand / m².
Apply this mortar to nominally 2mm followed by broadcasting: 16/30 Silica Sand @ 1.4 kg/ m².
After set, a seal coat is recommended using:
Epigen 4040 or Epigen 4028 @ 0.7 kg/ m².

CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

Acetic Acid, 10 % 2 Acetone 2
Acetic Acid, Glacial 2 Ammonium Chloride 1
Hydrochloric Acid, 5 % 1 Beer 1
Hydrochloric Acid, 10 % 1 Dichloromethane 3
Hydrochloric Acid, conc 1 Diesel Fuel 1
Nitric Acid, 5 % 2 Isopropyl Alcohol 1
Nitric Acid, 10 % 2 Kerosene 1
Phosphoric Acid, 5 % 1 Petrol 1
Phosphoric Acid, 20 % 1 Salt Water 1
Sulfuric Acid, 20 % 1 Sewage 1
Sulfuric Acid, 75 % 1 Skydrol 1
Sulfuric Acid, 98 % 2 Sodium Cyanide 1
Ammonium Hydroxide, 20 % 1 Sodium Hypochlorite 1
Ammonium Hydroxide, 50 % 1 Toluene 2
Potassium Hydroxide, 5 % 1 Trichloroethane 2
Potassium Hydroxide, 20 % 1 Vinegar 1
Sodium Hydroxide, 20 % 1 Wine 1
Sodium Hydroxide, 50 % 1 Xylene 2
Note : Under acidic conditions, 4040 has been designed to change colour allowing OH&S steps to be taken in cleaning up spills or as a warning to beware.

CURE
Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing
.

 

CHEMPROOF HB COATING epigen 4029

Designed as the ultimate chemical resistant high build coating, 4029 is based on high performance Novalac resin technology, solventless in nature, to meet the highest practical standards of chemical resistance and corrosion protection achievable.
 
Primarily a barrier coating or lining suited to treatment of steel, concrete and brick in applications where acids, alkalis, organic solvents, or a number of chemicals in process give rise to problematic conditions.
 
Novalac functionality and high cross linking density is the key stone of 4029 which also contains a unique fill that offers high resistance to erosion and abrasion without compromising chemical resistance.
 
TYPICAL APPLICATIONS
  • Acid Bunds                             
  • Tanks & Vessels
  • Rail Cars                                 
  • Scrubbers
  • Steelwork Coating                    
  • Pipelines & Valves Solvent
  • Extraction Systems    
  • Acid Sumps & Drains
  • Ducting Systems                     
  • Acid Fume Proof Roofing
  • Sulfur Pits                               
  • Concrete Repair

FEATURES
  • Superior Novalac polymer system
  • Highly erosion resistant fill
  • Application DFT up to 1000 micron in the one coat
  • Free of all solvents - zero VOC
  • Outstanding resistance to chemicals & acids
  • Versatility in application - can be used with GF
  • Suitable in patching or repair of mortar

PROFILE
Ratio by weight                                     2 parts “A” to 1 part “B”
Pot Life minutes @ 24oC                     30
Mixed consistency @ 24oC                 Viscous Flowable Liquid Specific gravity when mixed 1.5
Kg/m2   for 500 micron                          0.75
Tack free time @ 24oC                         180 minutes

TYPICAL CURED PROPERTIES
Compressive strength ASTM D695, Mpa                      >110
Tensile strength ASTM D638, Mpa                                  >26
Flexural strength ASTM D790, Mpa                                >50
Hardness, Shore D                                                           80
Dielectric constant ASTM D150 (150KHz)                     3.0
Maximum exposure temperature, o C                              125
Heat deflection temperature ASTM D648,  o C                 70
Thin Film Gel , (min recoat time) Minutes                         75
Maximum recoat time, Hours                                            48
Ultimate cure time to Service , Hours                               96
This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made


SURFACE PREPARATION

Methods for substrate preparation may include chemical means such as washing & etching, high pressure water blasting, or traditional abrasive blasting techniques.Caution should be maintained in selecting a technique that provides satisfactory anchor for the lining.Specialist advice is available from Peerless Industrial Systems to ensure the correct preparation procedure is employed for specific applications.

APPLICATION

Mixing of product should be carried out using slow speed mixers and completed by adding to the part “A”, the part “B”. Ensure the mix is homogeneous and free from lumps. Avoid air entrainment.
4029 can be applied either by airless spray, brush or roller. Since it does not contain solvents, application by spray allows the application of high film thicknesses in single coats, and ensures that all material purchased actually contributes to the final DFT. 4029 is a higher viscosity than conventional solvent containing coatings and application may require more specialised practices but is generally compensated for by the speed of application and need to apply fewer coats.
Epigen Diluent maybe added to 4029 to control viscosity under some circumstances. Avoid excessive additions and do not add Diluent in confined spaces or near naked flame. Do not add thinners to extend pot life.
In concrete correction applications, blow holes, cracks, or significant damage maybe faired by mixing 1 part 4029 with 1.5parts 30/50 sand and applying the paste to the damaged areas. This practice should be employed after the first coat application when the extent of degradation becomes apparent and before second coat application.
 
4029 is a functional, industrial finish and is not developed to possess asthetic properties such as high gloss which would enable it to be used where appearance is particularly important.

CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

 
Acetic Acid, 10 % 2 Acetone 2
Acetic Acid, Glacial 2 Ammonium Chloride 1
Hydrochloric Acid, 5 % 1 Beer 1
Hydrochloric Acid, 10 % 1 Dichloromethane 3
Hydrochloric Acid, conc 1 Diesel Fuel 1
Nitric Acid, 5 % 2 Isopropyl Alcohol 1
Nitric Acid, 10 % 2 Kerosene 1
Phosphoric Acid, 5 % 1 Petrol 1
Phosphoric Acid, 20 % 1 Salt Water 1
Sulfuric Acid, 20 % 1 Sewage 1
Sulfuric Acid, 75 % 1 Skydrol 1
Sulfuric Acid, 98 % 2 Sodium Cyanide 1
Ammonium Hydroxide, 20 % 1 Sodium Hypochlorite 1
Ammonium Hydroxide, 50 % 1 Toluene 2
Potassium Hydroxide, 5 % 1 Trichloroethane 2
Potassium Hydroxide, 20 % 1 Vinegar 1
Sodium Hydroxide, 20 % 1 Wine 1
Sodium Hydroxide, 50 % 1 Xylene 2

CURE
Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing.


CHEMPROOF HB COATING FC epigen 4029FC

4029 was designed as the ultimate chemical resistant high build coating. 4029FC has increased resistance to chemicals and higher strength but requires consideration for a very short pot life and fast cure. 4029FC is based on high performance Novalac resin technology with a fast acting cycloaliphatic amine, and maintains solventless character to meet the highest standards of chemical resistance and corrosion protection achievable.
 
Primarily a barrier coating or lining suited to treatment of steel, concrete and brick in applications where acids, alkalis, organic solvents, or a number of chemicals in process give rise to problematic conditions.
 
Novalac functionality and high cross linking density is the key stone of 4029FC technology which also contains a unique fill that offers high resistance to erosion and abrasion without compromising chemical resistance.

TYPICAL APPLICATIONS
  • Acid Bunds                             
  • Tanks & Vessels
  • Rail Cars                                 
  • Scrubbers
  • Steelwork Coating                    
  • Pipelines & Valves Solvent
  • Extraction Systems    
  • Acid Sumps & Drains Ducting Systems                                 
  • Acid Fume Proof Roofing
  • Sulfur Pits                               
  • Concrete Repair

FEATURES
  • Superior Novalac polymer system
  • Highly erosion resistant fill
  • Application DFT up to 1000 micron in the one coat
  • Free of all solvents - zero VOC
  • Outstanding resistance to chemicals & acids
  • Versatility in application - can be used with GF
  • Suitable in patching or repair of mortar
  • Fast Cure allows rapid return to service

PROFILE


Ratio by weight                                    4 parts “A” to 1 part “B”
Pot Life minutes @ 24oC                     <20
Mixed consistency @ 24oC                 Viscous Flowable Liquid Specific gravity when mixed 1.6
Kg/m2   for 500 micron                          0.8
Tack free time @ 24oC                         60 minutes


TYPICAL CURED PROPERTIES

Compressive strength ASTM D695, Mpa                   >115
Tensile strength ASTM D638, Mpa                               >26
Flexural strength ASTM D790, Mpa                             >50
Hardness, Shore D                                                        84
Dielectric constant ASTM D150 (150KHz)                  3.0
Maximum exposure temperature, o C                           125
Heat deflection temperature ASTM D648,  o C             85
Thin Film Gel , (min recoat time) Minutes                      20
Maximum recoat time, Hours                                         24
Ultimate cure time to Service , Hours                            24
This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.

SURFACE PREPARATION

Methods for substrate preparation may include chemical means such as washing & etching, high pressure water blasting, or traditional abrasive blasting techniques.Caution should be maintained in selecting a technique that provides satisfactory anchor for the lining.Specialist advice is available from Peerless Industrial Systems to ensure the correct preparation procedure is employed for specific applications.

APPLICATION
Mixing of product should be carried out using slow speed mixers and completed by adding to the part “A”, the part “B”. Ensure the mix is homogeneous and free from lumps. Avoid air entrainment.
4029FC can be applied either by airless spray, brush or roller. Since it does not contain solvents, application by spray allows the application of high film thicknesses in single coats, and ensures that all material purchased actually contributes to the final DFT. 4029FC is a higher viscosity than conventional solvent containing coatings and application may require more specialised practices but is generally compensated for by the speed of application and need to apply fewer coats.
Epigen Diluent maybe added to 4029FC to control viscosity under some circumstances. Avoid excessive additions and do not add Diluent in confined spaces or near naked flame. Do not add thinners to extend pot life.
In concrete correction applications, blow holes, cracks, or significant damage may be faired by mixing 1 part 4029FC with 1.5parts 30/50 sand and applying the paste to the damaged areas. This practice should be employed after the first coat application when the extent of degradation becomes apparent and before second coat application.
 
4029FC is a functional, industrial finish and is not developed to possess asthetic properties such as high gloss which would enable it to be used where appearance is particularly important.

CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

Acetic Acid, 10 % 1 Acetone 1
Acetic Acid, Glacial 2 Ammonium Chloride 1
Hydrochloric Acid, 5 % 1 Beer 1
Hydrochloric Acid, 10 % 1 Dichloromethane 2
Hydrochloric Acid, conc 1 Diesel Fuel 1
Nitric Acid, 5 % 1 Isopropyl Alcohol 1
Nitric Acid, 10 % 2 Kerosene 1
Phosphoric Acid, 10 % 1 Petrol 1
Phosphoric Acid, 35 % 1 Salt Water 1
Sulfuric Acid, 30 % 1 Sewage 1
Sulfuric Acid, 70 % 1 Skydrol 1
Sulfuric Acid, 98 % 1 Sodium Cyanide 1
Ammonium Hydroxide, 5 % 1 Sodium Hypochlorite 1
Ammonium Hydroxide, 20 % 1 Toluene 2
Potassium Hydroxide, 5 % 1 Trichloroethane 1
Potassium Hydroxide, 20 % 1 Wine 1
Sodium Hydroxide, 20 % 1 Xylene 1
Sodium Hydroxide, 50 % 1    

CURE
Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing.


 

CHEMICAL RESISTANT FLOOR TOP-NAR epigen 4055

Developed as a multipurpose binder system for use as a hard wearing lining that possesses resistance to the effects of corrosive chemicals. Primarily designed for use in Nitric Acid proofing of concrete and bunds, the perform- ance of Epigen 4055 is equally satisfactory for use in the protection of structural steel work, pump bases and various other static fixtures in contact with corrosive chemicals.
 
Epigen 4055 compliments the existing Chemproof Series for flooring applications by providing unparalleled adhesion to a substrate by greater wetting power, with effortless application by trowel, or as a self leveller, enabling large areas to by coated extremely quickly.

FEATURES
  • Nitric Acid Resistance - One simple choice.
  • Free of all solvents - zero VOC
  • Application Enhanced - Application and finish with relative ease.
  • Versatility in application - can be used with GF
  • Suitable in patching or repair of mortar
CNA - Concentrated Nitric Acid
Epigen 4055 was the result of extended trials with explosives industry who have demand for improved protection and life of civil assets due to the use of Nitric Acid on site. Together with professional contractors, work to maximise the ease and speed with which a protective coating may be applied was carried out.
Substantial and ongoing assessment to a wide range of chemicals ensures extended knowledge of the products performance continues. Epigen 4055 has been found to be suitable in splash and spill applications of all concentrations of Hydroxide Salts, Acids, including Sulfuric and Hydrochloric, as well as most petroleum and organic solvents.
The emphasis is however on suitable protection of substrates against Nitric Acid, specifically up to 98% concentration with considerable contact time.
Although Epigen 4055 is not recommended for immersion service, it will maintain protection of underlying surfaces for several days in 56 – 98 % Nitric Acid.

PROFILE
Ratio by weight                                    2 parts “A” to 1 part “B”
Pot Life minutes @ 24oC                    40
Mixed consistency @ 24oC                 Flowable Liquid
Specific gravity when mixed               1.1
Mortar Tack free time @ 24oC             8 hours
Primer Tack free time @ 24oC             12 hours

TYPICAL CURED PROPERTIES


Compressive strength ASTM D695, Mpa >70
Tensile strength ASTM D638, Mpa >20
Flexural strength ASTM D790, Mpa 16
Hardness, Shore D 84
Dielectric constant ASTM D150 (150KHz) 3.0
Maximum exposure temperature, o C 105
Heat deflection temperature ASTM D648, o C 70
Thin Film Gel , (min recoat time) Minutes 120
Maximum recoat time, Hours 48
Ultimate cure time to Service , Hours 96
 This information is supplied as an indicative reference only. Caution should be used where direct comparisons are to be made.

SURFACE PREPARATION

In line with all cases where good adhesion is expected, the substrate should be reasonably clean and free from loose particles. Methods for substrate preparation include abrasive blasting, etching, grinding or scarifying. The technique best suited depends on the substrate, the service conditions, and practical considerations.

Mixing of product should be carried out using slow speed mixers or spatulas, and completed by adding to the component “A”, the component “B”. Ensure the mix is homogenous before use.

MORTAR PREPARATION

4055 can be used as a binder to which aggregate is to be added. Excellent results are acheived when dried silica sand in the range 0.6mm - 1.2mm. This is often referred to as 16/30 mesh size. Variations in porosity and strength may occur when changing grades of aggregate.
 
TROWEL
In using Silica Sand 16/30 mesh, a mix ration of 1 part 4055 to 8 parts sand provides an ideal trowel on mortar.

SELF LEVELLING
Mix 1 part 4055 to 1.5 parts 30/50 sand and spread out with a squeegee or trowel, then over roll using a spiked roller to release air entrainment. Blind out by broadcast- ing 16/30 sand over top. Sweep off excess and top coat as required.
 
COVERAGE GUIDE
Trowel (final DFT 6mm)
1.2 kg of Epigen 4055/ m².
9.6 kg of 16/30 Silica Sand / m².
 
Self Levelling (nominally 3mm)
1.4 kg of Epigen 4055 / m².
2.1 kg of 30/50 Silica Sand / m².
Apply this mortar to nominally 2mm followed by broadcasting:
16/30 Silica Sand @ 1.4 kg/ m².
After set, a seal coat is recommended.
 
Primer Applications
1.1 kg of Epigen 4055 yields 1000micron/ m².
Nominally 100 micron on steel or 300 micron on concrete.

CHEMICAL RESISTANCE
Tested at 21oC. Samples cured for 10 days at 25oC. Curing at elevated temperatures will improve chemical resistance.
 
1 = Continuous or long term immersion
2 = Short term immersion
3 = Splash and spills
4 = Avoid contact

Acetic Acid, 10 % 2 Acetone 3
Acetic Acid, Glacial 3 Ammonium Chloride 1
Hydrochloric Acid, 5 % 2 Beer 1
Hydrochloric Acid, 10 % 2 Dichloromethane 4
Hydrochloric Acid, conc 3 Diesel Fuel 2
Nitric Acid, 20 % 2 Isopropyl Alcohol 2
Nitric Acid, 98 % 2 Kerosene 2
Phosphoric Acid, 10 % 2 Petrol 2
Phosphoric Acid, 35 % 3 Salt Water 1
Sulfuric Acid, 30 % 3 Sewage 2
Sulfuric Acid, 70 % 3 Skydrol 3
Sulfuric Acid, 98 % 3 Sodium Cyanide 1
Ammonium Hydroxide, 5 % 2 Sodium Hypochlorite 3
Ammonium Hydroxide, 20 % 2 Toluene 4
Potassium Hydroxide, 5 % 2 Trichloroethane 3
Potassium Hydroxide, 20 % 2 Wine 2
Sodium Hydroxide, 20 % 2 Xylene 3

CURE
Variations in cure may arise due to the amount of material being applied, the thickness of material being applied, the surface temperature, and the product temperature. The cure may be increased by heating product or by leaving mixed material stand for 15 minutes before use. The cure may be decreased by cooling the product before mixing.

 



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