Chemoguard
Epoxy Zero VOC Chemical Resistant Coating System
Product Description
Chemoguard coating system is amine cured, 100% solids, two-component high build, heavy-duty epoxy protective coating designed to combat corrosion, erosion, abrasion, chemical attacks, temperature extremes and other destructive conditions.
Features and Benefits
 |
Easy to apply
and can be applied via airless spray, brush and roller. |
|
Eliminates
solvent hazards and ventilation problems. |
|
High build
coatings that result in fewer labour stops, less down time and lower
application costs. |
|
Produce thick
non-porous and highly resistant film as compared to conventional
solvent-borne coatings that produce thin films with inherent porosity. |
|
Ideal for heavy
industrial, chemical, marine, splash and spillage, fresh water, sea water
and chemical immersion. |
|
Excellent
resistant to dilute acids, alkalis and certain solvents. |
|
Have excellent
adhesion, toughness, abrasion resistance and overall chemical resistance. |
|
Excellent
impermeability to solvent or fuel vapours, moisture vapour and gases and
control of corrosion by inhibiting the migration of oxygen, moisture and
other corrosive substances to the surface of the substrate. |
|
Excellent
impact and mar resistant. |
|
High adhesive
strength and mechanical properties. |
|
Practically no
shrinkage of coatings during curing. |
|
Can be cured in conditions of high humidity and low temperatures. |
|
Excellent
adhesive characteristics ensure a tight bond to most cleaned sound surfaces.
|
|
Excellent
long-term protection with longer maintenance-free life. |
Recommended uses:
|
Chemical Plants |
Reservoirs |
|
Petroleum Oil Industry |
Foodstuffs Industry |
|
Paper & Cellulosic Industry |
Breweries |
|
Shipbuilding industry |
Wine Storage Vessels |
|
Agricultural Equipment |
Dairies |
|
Sewage Treatment Plants |
Fertilized Industry |
|
Nuclear Power Plants |
Textile Industry |
|
Sugar Industry |
Confectioneries |
|
Water Treatment Plants |
Pipelines |
|
Tidal & Splash Zones |
Sewage Drains |
|
Drilling Mud Tanks |
Steel Plants |
|
Refineries |
Fuel Storage Tanks |
|
Areas exposed to or immersed in sea water |
Areas submerged in water |
Surface Preparation:
Steel - The surface should be blast cleaned to SSPC-SP 10-63T or NACE No. 2 i.e. loose rust and scales, dirt, grease, oil, paint, wax, weak oxide films and other contaminants should be removed. Blast cleaning to SSPC-SP 5-63 or NACE No. 1 is recommended where heavy corrosive conditions exist or coating is required to be immersed. That means a surface with a grey metallic colour, slightly roughened to form a suitable anchor pattern for coatings. This surface is free of all oil, grease, dirt, mill scale, rust, corrosion products, oxides, paint and other foreign matter. In absence of blast cleaning, prepare the metal surface by wire brushing, sanding, grinding, scrapping or chipping with hand or power tools. Remove all the contaminants.
Non-ferrous Metals - The metal surface should be grit or sand blasted to ensure complete removal of loose particles and slightly roughened to form a suitable anchor pattern for coatings. Remove dirt, dust, oil, old paint etc. Degrease the surface with degreasing solvents like xylene or tri-chloroethylene. Apply one coat of Anuprime - 291 Wash Primer for obtaining maximum adhesion.
Concrete: New or poured concrete contains a
considerable quantity of surplus water. For best results, new concrete surfaces
should be clean, dry and well cured before coating. New concrete allowed to cure
or aged for minimum of 30 days at temperatures over 25°
C prior to surface preparation and coating application which will help assure
maximum performance of the coating system and satisfactory coating adhesion.
New or old concrete should be grey or grey-white color and
free from pits, pockets and holes. Prepare the surface with abrasive blasting or
power tools. Surface imperfections should be filled in with DURAPATCH.
No cement dust or sand should be dislodged. It is always recommended to clean
the surfaces with abrasive blast cleaning. In absence of blasting, etch the
surface with 10-15% muriatic acid diluted in water. Allow this acid solution to
remain on the surface for 10-15 minutes or until the bubbling stops. Thoroughly
rinse the floor with water to remove all traces of acid. Allow the floor to dry
completely before painting.
Concrete surface requiring a primer should be primed with Chemoguard
# 888 Primer reduced 33% with Anusol - ETP Epoxy Thinner for assuring
maximum penetration of the coating into the concrete and a better bond of
coating system to the substrate. After the initial coat has dried for 24 hours,
apply 1 full coat Chemoguard # 888 Primer followed by two coats of
Chemoguard # 999 Topcoat.
Curing:
Chemoguard coatings can be applied to wet surfaces when
the ambient temperature is as low as 0°
C. Do not apply when temperature can be expected to drop below 0°
C within 6 hours after application. Under these conditions, the cure will be
very slow but not otherwise affected. These coatings have the ability to harden
even at 0° C but subsequent exposure
to high temperatures is necessary to cure. Complete curing of the system takes
place at room temperature in 7days. However, the room temperature should not be
below 20° C. Post curing at 70-80°
C for few hours is strongly recommended. Infrared lamps, steam and hot water can
effect post curing. Post curing enhances the mechanical strength besides
ensuring complete curing.
Pot Life:
Working Pot life after mixing base and hardener is 45 minutes
to1 hour at 25° C. At higher
temperatures, the pot life of the material is drastically reduced. It has been
noted that packing ice around the mixing or spray pressure pot will extend pot
life.
The material will dry to touch within 5-7 hours with
significant toughening of the film overnight and full curing 7 days at 25°
C. Allow the primer coat to gel to the tacky stage and at this stage further
coat is applied so as to ensure maximum adhesion between the two coats.
Mixing Instructions:
When the temperatures are higher than 25°
C, refer to above paragraph on "Pot Life" to determine the quantity to
be mixed. DO NOT MIX MORE THAN CAN BE USED WITHIN 1 HOUR.
Mix 2 parts of base with 1 part of hardener by volume.
Continue mixing for 5 minutes minimum to ensure proper mixing.
Thinners:
In exceptional circumstances, ANUSOL-ETP Solvent in
amounts upto 10% may be added to this coating system for ease of application.
Neither alcohol, higher ketones nor glycol ethers should be used since these
solvents impair the water resistance of the cured films. When the coating
contains solvent, dry film thickness of the applied coating should not exceed
150 microns.
Chemical Resistance:
Lack of Chemical Resistance is not the most common cause of
coating failure. Inadequate surface preparation or application of coatings under
less than ideal conditions responsible for coating failure. Chemoguard coating
system has been designed to tolerate adverse conditions of surface preparation
and application albeit with shorter life for all types of service except
immersion. The stressed of immersion service are so great that the best surface
preparation possible must be specified. Chemoguard Coating System is not
recommended for immersion service except with specific reagents but its use for
splash and spillage service is almost unlimited. This system is suitable
for immersion service at 25° C in the
under mentioned chemicals.
System - 1 coat of Chemogurad # 888 Primer + 2 coats of
Chemoguard # 999 Topcoat.
Cure Schedule - 14 days @ 25°
C @ 50% relative humidity.
|
Sulphuric Acid 70% |
Naphthenic Acid |
Lactic Acid |
Phosphoric Acid 50% |
|
Hydrochloric Acid 10% |
Nitric Acid 10% |
Acetic Acid 10% |
Formalin |
|
Butyl Benzyl Phthalate |
di-n-Butyl Phthalate |
di-Octyl Phthalate |
Citric Acid 10% |
|
n-Ethyl Hexyl Acrylate |
Ethylene Glycol |
Glycerol |
Hexylene Glycol |
|
Polypropylene Glycol |
Hexane |
Petroleum Naphtha |
Petrol |
|
Nonyl Phenol |
Creosote Oil |
Tallow |
Tap Water |
|
Sea Water |
Distilled Water |
Carbon Tetrachloride |
Cutting Oils |
|
Hydrogen Peroxide 20% |
Potassium Hydroxide 20% |
Sodium Chloride |
Ammonia 40% |
|
Sodium Hydroxide 20% |
Di-ethanolamine |
Tri-ethanolamine |
Titanium tetrachloride |
|
Chlorinated Paraffin |
Iso-Amyl Alcohol |
Iso-Butanol |
Cyclohexanol |
|
n-Decanol |
n-Hexanol |
n-Heptanol |
n-Ethyl Hexanol |
|
n-Nonanol |
n-Octanol |
Iso-Octanol |
Tert-Butanol |
|
Dipentine |
Pine Oil |
Petroleum Ether |
White Spirit |
|
Turpentine |
Paraffin Wax |
Heptane |
Di Iso Butyl Ketone |
|
Vegetable & Animal Oils & Fats |
Molasses |
Wine |
Whisky |
|
Jet Fuel |
Kerosene |
Lard |
Lubricating Oils |
TECHNICAL DATA
|
Name/Description |
Chemoguard # 888 Primer |
Chemoguard # 999 Topcoat |
|
Type |
Two pack cold cured |
Two pack cold cured |
|
Composition |
Epoxy Resin / Special Amine Curing Agent suitably pigmented. |
Epoxy Resin / Special Amine Curing Agent suitably pigmented. |
|
Colour |
Red Oxide / Grey |
Grey |
|
Finish |
Smooth and Glossy |
Smooth and Glossy |
|
Solids by Volume & Weight (mixed) |
100% |
100% |
|
Mixing Ratio |
Base : Hardener 2 : 1 by volume |
Base : Hardener 2 : 1 by volume |
|
Pot Life @ 30° C |
3/4 to 1 hour |
3/4 to 1 hour |
|
Dry film thickness per coat |
150 to 300 microns |
150 to 300 microns |
|
Coverage-(theoretical-no loss) |
6.6 mē /litre at 150 micron |
6.6 mē /litre at 150 micron |
|
Serviceability @ 30°
C - Dry to touch - Re-coat - Full Cure |
5 to 7 hours At the tacky stage 7 days |
5 to 7 hours At the tacky stage 7 days |
|
Dry heat resistance |
120° C |
120° C |
|
Application Temperature -minimum -maximum |
10° C 35° C |
10° C 35° C |
|
Relative Humidity |
90% |
90% |
|
Flash Point |
Above 80° C |
Above 80°C |
|
Solvent/Thinner |
Anusol - ETP Thinner |
Anusol - ETP Thinner |
|
Resistance to boiling water @ 96° C for 6 hours |
Unaffected |
Unaffected |
|
Resistance to corrosion under conditions of condensation @ 38° C for 1000 hours |
No Failure |
No Failure |
|
Resistance to Salt Spray for 1000 hours |
No Failure |
No Failure |
|
Packing |
3 & 30 litres |
3 & 30 litres |
|
Shelf Life |
6 months |
6 months |
Clean - Up:
Clean-up hands, tools, gloves etc. immediately with ANUSOL
- ETP Epoxy Thinner.
Caution:
The job sites should be ventilated. The liquids may cause skin
or eye irritation. Avoid direct contact with skin. Rub hands and face with a
protective skin ointment. Before longer break periods and after completion of
work, give the body careful washing. Rinse splashes from the eyes with plenty of
water and borax solution. Wear protective clothing such as gloves, safety
goggles and apron when mixing and applying Chemoguard. Keep away from
reach of children and persons not trained in its use and not aware of the
potential hazards involved. All components of this system are intended for use
by professionals only.
Product Limitations:
Chemoguard coatings tend to change colour after few
days if exposed to direct sunlight, certain gases and vapours and certain
chemicals. It should be noted, however, chemical resistance and other properties
of the coatings are not affected at all by discolouration.
Notes
|
Brushes and spray equipments should be cleaned with Anusol - ETP
Epoxy Thinner. |
|
The contents should be stirred thoroughly prior to use. |
|
When overcoating the weathered or aged Chemoguard,
ensure that the coating is fully free from all contamination such as oil,
dust, grease, stains etc. The coating should be made dull with kitchen knife
etc. |
Disclaimer:
Information provided herein is based upon tests believed to
be reliable. It does not guarantee the results to be obtained. Nor does it make
any express and implied warranty or merchantability, or fitness for a particular
purpose concerning the effects or results of such case. It does not release you
from the obligation to test the products supplied by us as to their suitability
for the intended uses. The application, surface preparation and use of the
products are beyond our control and, therefore, entirely your own
responsibility.