HEATGUARD
Silicone High Heat Resistant Coatings
Product Description:
HEATGUARD coatings are silicone resin Aluminium based
high heat resistant coatings designed to withstand temperatures from 450°
C to 650° C.
Features and Benefits:
 |
Economical and
have higher covering capacity. |
|
Available in
ready-to-us conditions and no primer or thinner are required. |
|
Easy to apply
and can be applied via airless spray, conventional spray, and brush. |
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Excellent
resistance to dilute acids, aqueous chemicals, salts, solvents, chemical
fumes, corrosive gases in marine, chemical, textile, fertilizer and other
industries. |
|
Improved
thermal stability and resistance to oxidation compared with typical organic
systems and do not get burnt, peeled off, crack, blister, and destroyed or
even tarnished at higher temperatures. |
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Exhibit
extremely low toxicity. |
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Excellent water
repellency and can be washed with detergents or hot water to remove dirt,
dust, grease and oil stains etc. |
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Excellent
ultra-violet and radiation resistance. |
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Can withstand
several thousand hours of continuous exposures at certain temperatures. |
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Have excellent
weathering properties and are non-yellowing and non-chalking largely due to
water repellency, low water absorption and UV-radiation resistance. |
|
Have
outstanding heat stability, high corrosion resistance, excellent adhesion,
colour and gloss retention largely due to their excellent bond energy. |
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After the
coatings are fully cured, they are unattacked by temperature variation of
minus 40° C to plus 250°
C to 650° C and also are
unaffected by gases, steam, saline, petroleum solvents, spirit, water, oils
and even direct flames etc. |
|
Suitable for
varied end applications i.e. ideal for heavy industrial, chemical, marine,
splash and spillage, fresh water, sea water and chemical immersion. |
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Versatile
coatings that combine various outstanding properties in single coating. |
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Provides
excellent long-term protection and are cost-effective. |
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Withstand mold
and fungus growth. |
Recommended uses
HEATGUARD coatings are used mainly where heat
resistance and excellent weather and chemical resistance is most important
considerations. They are comparatively expensive coatings but their long life
compensates for this by extending re-painting cycles and thereby reducing labour
and application costs.
|
Ovens |
Space-heaters |
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Chimneys |
Lighting fixtures |
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Exhaust manifolds |
Boiler doors |
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Smoke stack engines |
Electrical equipments |
|
Missiles |
Gas burning equipments or flames |
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Insulation materials or refractory lining |
Solar collectors or absorbers |
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High temperatures reactors |
Autoclaves |
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Pressure vessels |
Pre-heater cyclone-tanks |
|
Heat exchangers |
Oil and steam pipelines |
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Oil extraction units |
Air-conditioning and refrigeration units |
|
Automobile silencers |
Lab-equipments |
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. That
means a surface with a grey-white uniform 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.
Some bonderizing treatment, such as phosphates should be avoided because of
their poor heat stability.
Application Procedure:
No primer is required. The use of any metal primer will cause
blistering and flaking because metal primers are not formulated to withstand
high temperatures. (In certain circumstances, ANUZINC
2001 TP Inorganic Zinc Silicate Coating can be used as primer).
It is important to apply HEATGUARD COATINGS directly to a cool, clean
steel surface. The surface should be free from rust, dirt, scale, and old paint.
HEATGUARD COATINGS because of their ultimate requirements must be applied
at the recommended film thickness and surface preparation. Special care should
be exercised in using these coatings for maximum performance. If the film is
thicker, thermal stress will readily promote cracking, blistering and lifting.
Too thin a film build with result in premature failure. The danger of applying
such coatings on hot surfaces is that brush or roller equipment will warm and
produce excessive thick films, the coating can then fail prematurely from
internal thermal stresses. Likewise, failure can occur when the coating is
sprayed on a hot surface in which solvent rapidly evaporates, promoting poor
film adhesion. AFTER PAINTING, INCREASE TEMPERATURE OF SURFACE AT PRESCRIBED
RATE FOR PROPER CURING. These coatings dry to touch but require heat for proper
cure. If a coating is under-cured, it will be relatively soft and provide poor
adhesion to the substrate. In such applications where oven curing is impossible,
for example on chimneys, furnaces or other large equipments, the coatings are
cured in situ when the unit is put into service. Do not
shake the coating with mechanical shaker or overly agitate as protective coating
on the minute aluminium flakes may be removed, thus the coatings appear dull,
non-uniform and mottled.
Recommended Systems
One coat (Interior): Allow to air-dry for 4 to 24
hours. Slowly raise heat to operating temperature, taking about one hour going
through the recommended temperature range.
Two coats (Exterior): Allow the solvent from first coat to flash off in about 1-2 hours. Apply second coat to cooled surface. Air dry 24 hours. Slowly raise heat to operating temperature taking about one hour going through the recommended temperature range.
TECHNICAL DATA
|
Name/Description |
HEATGUARD 450 |
HEATGUARD 650 |
|
Type |
Single pack heat cured |
Single pack heat cured |
|
Composition |
Modified Silicone/Aluminium Flakes |
Silicone/Aluminium Flakes |
|
Colour |
Aluminium |
Aluminium |
|
Finish |
Bright Metallic |
Bright Metallic |
|
Volume Solids (mixed) |
20± 1% |
28± 1% |
|
Dry film thickness per coat |
15 - 20 microns |
20 microns |
|
Coverage-(theoretical-no loss) |
10 - 13.33 m² /litter |
14 m² /litter |
|
Serviceability @ 30°
C Dry to touch Re-coat |
30 minutes See recommended systems |
30 minutes See recommended systems |
|
Cure schedule |
60-120 minutes at 250° C |
60-120 minutes at 250° C |
|
Application Temperature -minimum -maximum |
10° C 35° C |
10° C 35° C |
|
Relative Humidity |
85% maximum |
85% maximum |
|
Solvent/Thinner |
Anusol - SRT Thinner |
Anusol - SRT Thinner |
|
Flash Point |
Above 25° C |
Above 25° C |
|
Maximum Service Temperatures- Short Term Continuous |
450° C 175° C |
650° C 275° C |
|
Precaution |
Flammable. Keep away from heat and open flame. Maintain good ventilation and avoid breathing vapours. |
Flammable. Keep away from heat and open flame. Maintain good ventilation and avoid breathing vapours. |
|
Packing |
4 & 20 litres |
4 & 20 litres |
|
Shelf Life |
6 months |
6 months |
Notes
|
Brushes and spray equipments should be cleaned with Anusol - SRT
Thinner, otherwise the equiments may render unserviceable. |
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The contents should be stirred thoroughly prior to use. |
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Keep containers tightly closed. |
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.