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Research for Tomorrow’s Technology
Unit Nos. D107 to D112, Kailash Indusrtrial Complex, Vikhroli-Hiranandani Link Road, Vikhroli (W), Mumbai – 400 079, Indiawww.nsccindia.com
Silicone Modified inorganic-organic hybrid polymers for high heat resistance and weatherable paints and
coating application
History teaches Innovation does not come about by central planning. If it did. Silicon valley would be nearer to Moscow than to San Francisco
SILICON
sp3 hybridized Si(1.8)-O(3.5) = 1.7Bond length = 1.645°A
Bond Type
Energy(kcal/mole)
C-F 105
Si-O 88-114C-O 84C-C 83Si-C 63
SILICONES - What are they?
SILICONES - What are they?
Organosilicon compoundsStructurally thought to be like ketone
Ketones Silicones =C=O =Si=O
Silanes
PDMS
or
Polysiloxanes
Silicone
SILICONES
ChlorosilanesAlkoxysilanes
Organofunctional
silanes/siloxanes
and so on
Low surface tension
Nonionic/nonpolar characteristics
Unique solubility characteristics
Hydrophobicity
Thermal stability
Oxidation resistance
Good dielectric properties
Liquid at high molecular weight
Stability over wide temp range (-70°C to 200°C)
Low flammability
Relatively inert
Nontoxic
Environmentally safe
Excellent weatherability
Properties of silicones
Organoreactive polysiloxane
NH2 - Amine neutralization, Isocyanate curing, surfactants
COOH - Amine neutralization- wetting agents, surfactants
OH – Isocyanate curing
OR- Moisture curing, Organic modification
CH=CH2, COO CH=CH2 UV Curable, reactive diluents, copolymerization
OCH2CH2O -Surfactants
H2C Si
CH3
CH3
O Si
CH3
CH3
O Si
CH3
O Si
CH3
CH3
CH2
CH3 n
R R
Nonreactive polysiloxane
Compatibility
Normally, silicones are not compatible with organic polymers. But if a larger organic group is attached to a silicone, its properties are altered, and it behaves more like an organic polymer.
Substantivity
Non-reactive silicones lack substantivity. But if an organoreactive group, such as an aminopropyl group, is attached to the silicone, the silicone becomes reactive and will form stable bonds with other organic polymers.
H3C Si
CH3
CH3
O Si
CH3
CH3
O Si
CH3
O Si
CH3
CH3
CH3
CH3 n
Polydimethylsiloxane or Silicone Oil
SiO OCH3
O
SiO OCH3
CH3
SiH2C O
O
CH3H2C
CH2HN
CH2-CH2-NH2
SiO OCH3
CH=CH2
Si
FLUIDSRESIN
EPOXY CURING AGENTUV CURABLE/CO-POLYMN
Organoreactive Silane
Si
OCH3
HC-H2C-O-H2C-H2C-H2C OCH3
OCH3
H2CO
PROTECTIVE COATINGS
Silane Organic Polymer
Ceramics
IOH
• Weatherable• Surface Energy
• Flexibility and Toughness• Processing•Functionalization
• Hardness• Thermal stability• Chemical resistance
Functional Group
Inorganic Network
Organic Network
InorganicInorganic--Organic Hybrid Organic Hybrid (Flexible Ceramic)(Flexible Ceramic)
IOH polymersIOH polymers
• Epoxy Silicone• Silicone Polyester• Silicone –PU• Acrylic Polysiloxane
• Silicone-Epoxy resin for high heat resistance anti-Corrosive Coatings
• Heat resistance up to 650 0 C (when formulated with metallic or other specialized pigments)
• Suitable for anti-corrosive heat-resistance coatings
• Suitable for single component (@1800 C/ 1hr ) and two component application (amine hardeners)
High Heat Resistant Epoxy Silicone Resin
650C for 4 hr X 5
cycle
Thermal Shock Test: 650C for 4 hr followed by immediate water quenching
• No Blistering• No Coating Peel off•ΔE = 1.02
High Heat Resistant Epoxy Silicone Resin
Properties Test Method Observation
Pencil Hardness ASTM D 3363 3H
Cross cut adhesion ASTMD 3359 Method B
4B
Erichsen Impact Test
( 1.6 Kg / 60 cm )
ASTMD 2794 Face-passes Reverse-Pass
Conical Mandrel ASTMD 522 Passes 1/4 "
Conical Mandrel ASTMD 522 Passes 1/4 "
Scratch hardness ASTM 4060 2000 g
Erishen Cupping Test ASTM E 643 9.26 mm
High Heat Resistant Epoxy Silicone Resin
ASTM D 522
ASTM D 3359
ASTM E 643
ASTM B1170 hr 200 hr
400 hr
High Heat Resistant Epoxy Silicone Resin
Salt Spray Test
Heat resistance up to 350 0C (when formulated with metallic or other specialized pigments)
Suitable for designing cookware, bakeware, electrical appliances
Can be used for primer and top coats
High Heat Resistant Polyester Silicone Resin
• Gloss : 89-91
• Whiteness: 90-92
• Brightness: 93-94
High Heat Resistant Polyester Silicone Resin
350C for 4 hr X 5 Cycle
• No Blistering• No Coating Peel off• Gloss Retention: 99%• Yellowness:
High Heat Resistant Polyester Silicone Resin
Properties Test Method Observation
Pencil Hardness ASTM D 3363 4H
Cross cut adhesion ASTMD 3359 Method B
5B
Erichsen Impact Test
( 1.6 Kg / 60 cm )
ASTMD 2794 Face-passes Reverse-Pass
Conical Mandrel ASTMD 522 Passes 1/4 "
Conical Mandrel ASTMD 522 Passes 1/4 "
Scratch hardness ASTM 4060 2500 g
IS 13213: 24 hr
Silicon-PU* : Functionalized Pure Acrylic Polyol
Functionalized acrylic polyol Designed to formulate anti-graffiti polyurethane coatings Resistant to stains like tea, coffee, shoe polish, turmeric, sauce etc. Excellent flexibility and exterior durability High gloss and gloss retentionAvailable in different Tg
Applications•It can be used to formulate Anti-Graffiti clear top coats for Furniture Automotives & Public transports Railway wagon & Coaches Bus body Stadiums, platforms and other public places.
Cleaning
S.K. Ghosh et al , Progress in Organic Coatings 65 (2009) 444–449
Acrylic Polysiloxane
• Silicone Macro-monomers and specially designed functional silicone hardeners • Isocyanate-free inorganic–organic Acrylic Polysiloxane system
• The cured films behave like inorganic ceramic with excellent scratch as well as abrasion resistance
•Superior weathering performance over PU
• Better mechanical and chemical performance than Epoxy
• Excellent flexibility (passed the cylindrical (0.5 inch) mandrel bend test)
• 80% gloss retention in 2500 hours QUV (B) exposure
Potential Applications Coatings for wind-mill blades
Offshore structures
Antifouling coatings
industrial machineries
Bridges & Stadiums
Acrylic Polysiloxane
Properties Test Method Observation
Pencil Hardness ASTM D 3363 5H
Cross cut adhesion ASTMD 3359 Method B
4B
Erichsen Impact Test ( 1.6 Kg / 80 cm )
ASTMD 2794 Face-passes Reverse-Pass
Conical Mandrel ASTMD 522 Passes 1/4 "
Conical Mandrel ASTMD 522 Passes 1/4 "
Abrasion Resistance @1000 cycles on CS17 1 kg
ASTM 4060 88 mg
Scratch hardness ASTM 4060 3000 g
ASTM 4060
ASTMD 522
Acrylic Polysiloxane
ASTM D 4752
IS 13213: 24 hrASTM E 643
Acrylic Polysiloxane
QUV B313 Test ASTM D 4587
Cyclic Corrosion ASTM D 5894
ASTM B 117
Standard EpoxyPaint
Acrylic PolysiloxanePaint
2000 hr
Exposure Time (hr)
ΔE
Area of Applications
Coatings for Aerospace Defense equipments Windmill blade Car Windshield Anti graffiti Facade paints Water repellency Industrial topcoats Marine Furniture Floor
Research for Tomorrow’s Technology