High-Temperature Vulcanized Solid Silicone Rubber (HTV/HCR)

Our Product Range

Versatile precipitated silica-based silicone rubber featuring balanced performance characteristics suitable for a wide array of manufacturing applications.

Key Features:

Optimized balance of mechanical properties
Cost-effective formulation
Consistent processing behavior
Good physical strength and elongation
Suitable for both DBPMH and DCBP curing systems

Processing Methods:

Compression molding
Extrusion processing
Calendering operations

Typical Applications:

Industrial rubber components
Consumer product manufacturing
General-purpose seals and gaskets
Household appliance parts

Premium fumed silica-reinforced silicone rubber delivering superior transparency, excellent anti-yellowing characteristics, and balanced mechanical performance.

Key Features:

Outstanding optical clarity
Exceptional anti-yellowing properties
Enhanced mechanical strength
Compatible with platinum and peroxide curing
Superior aging resistance

Processing Methods:

Injection molding
Compression molding
Extrusion
Calendering

Typical Applications:

Industrial components requiring transparency
Consumer goods and daily necessities
Medical device components
Food-contact applications (after proper post-curing)

Specially formulated fumed silica-based silicone rubber engineered to deliver exceptional tear resistance for demanding applications requiring superior mechanical durability.

Key Features:

Outstanding tear strength performance
Excellent tensile properties
Superior elongation characteristics
Enhanced fatigue resistance
Good processing stability

Processing Methods:

Compression molding for complex shapes
Extrusion for profiles and tubing

Typical Applications:

High-stress sealing components
Durable industrial gaskets
Vibration-resistant parts
Heavy-duty mechanical components

Premium-grade fumed silica silicone rubber optimized for applications demanding exceptional optical clarity and transparency combined with balanced mechanical performance.

Key Features:

Maximum optical transparency
Excellent light transmission
Minimal haze and cloudiness
Outstanding UV resistance
Superior color stability

Processing Methods:

Precision molding
Careful extrusion processing

Typical Applications:

Optical component sealing
LED encapsulation and lenses
Transparent tubing and hoses
Display and lighting applications
Medical observation devices

Advanced formulation featuring minimal compression set characteristics combined with excellent heat resistance, ideal for sealing applications requiring long-term dimensional stability.

Key Features:

Compression set less than 15% (industry-leading)
Exceptional sealing force retention
Outstanding thermal aging resistance
Excellent recovery properties
Long-term dimensional stability

Processing Methods:

Precision molding for O-rings
Extrusion for sealing profiles

Typical Applications:

High-performance O-rings and seals
Precision rollers and wheels
Automotive gaskets and seals
Industrial sealing systems
Hydraulic and pneumatic seals

Specially engineered general-purpose silicone rubber formulated for superior high-temperature performance in demanding thermal environments.

Key Features:

Exceptional high-temperature resistance
Extended service life at elevated temperatures
Minimal thermal degradation
Good mechanical property retention at high heat
Suitable for continuous operation at 250°C

Processing Methods:

Compression molding
High-temperature extrusion

Typical Applications:

High-temperature seals and gaskets
Thermal insulation components
Oven and furnace door seals
Automotive engine compartment parts
Industrial high-heat applications

Specialized formulation offering exceptional resistance to petroleum-based oils, hydraulic fluids, and various chemical media while maintaining excellent heat resistance.

Key Features:

Superior oil and solvent resistance
Excellent resistance to engine oils and mineral oils
Compatible with brake fluids (IRM901, IRM903)
Maintains properties in harsh chemical environments
Good heat resistance combined with chemical resistance

Processing Methods:

Compression molding
Extrusion processing

Typical Applications:

Automotive fuel system components
Oil-resistant seals and gaskets
Hydraulic system seals
Industrial equipment in oil environments
Chemical processing equipment

Phenyl-modified silicone elastomer delivering outstanding low-temperature flexibility combined with balanced mechanical characteristics for extreme cold applications.

Key Features:

Exceptional low-temperature flexibility (down to -110°C)
Balanced mechanical property profile
Good tensile strength and elongation
Enhanced cold weather performance
Maintains flexibility in extreme cold

Processing Methods:

Molding for precision components
Extrusion for profiles and seals

Typical Applications:

Arctic and cold climate seals
Aerospace low-temperature components
Refrigeration system seals
Cold storage equipment gaskets
Outdoor applications in cold regions

Advanced flame-retardant formulation combining excellent fire resistance with superior mechanical properties and thermal stability for safety-critical applications.

Key Features:

Excellent flame retardancy and self-extinguishing properties
Low smoke generation during combustion
Maintains mechanical integrity during fire exposure
Outstanding ceramicization performance
Density less than 1.4 g/cm³

Processing Methods:

Extrusion for cable jacketing
Molding for fire-resistant components

Typical Applications:

Fire-resistant cable and wire insulation
Safety equipment components
Building and construction fire barriers
Transportation vehicle fire protection
Electrical enclosure seals

Specialized fumed silica silicone rubber engineered specifically for extrusion of high-temperature rated electrical cables and wiring applications.

Key Features:

Exceptional heat resistance for UL high-temperature ratings
Optimized extrusion performance
Excellent electrical insulation properties
Superior aging resistance
Meets stringent electrical safety standards

Processing Methods:

Continuous cable extrusion
Wire coating processes

Typical Applications:

High-temperature electrical cables
UL-rated wire insulation
Industrial wiring harnesses
Appliance internal wiring
Automotive electrical systems

Premium platinum-catalyzed addition-cure silicone rubber formulated for food contact and medical applications requiring the highest purity standards.

Key Features:

Platinum catalyzed addition curing system
Ultra-high transparency
Food contact compliance (FDA, EU regulations)
Medical-grade purity
No post-cure odor or taste
Excellent biocompatibility

Processing Requirements:

Requires post-curing at 200°C for 4 hours for food contact
Clean room molding recommended
Precision extrusion capabilities

Typical Applications:

Food processing equipment seals
Baby bottle nipples and pacifiers
Medical device components
Pharmaceutical manufacturing equipment
Kitchenware and bakeware

Specialized conductive formulation incorporating carbon black or metallic fillers to provide controlled electrical conductivity for EMI shielding and grounding applications.

Key Features:

Controlled electrical conductivity (surface resistivity adjustable)
Excellent EMI/RFI shielding effectiveness
Maintains silicone’s inherent flexibility
Good compression set resistance
Heat and environmental resistance
Volume resistivity range: 10¹-10⁵ Ω·cm

Processing Methods:

Compression molding for gaskets
Extrusion for sealing profiles
Special handling to maintain conductivity

Typical Applications:

EMI/RFI shielding gaskets
Grounding and bonding strips
Electronic equipment enclosures
Telecommunications equipment
Conductive keypads and buttons
Static dissipative applications

Advanced formulation specifically engineered to withstand repeated steam sterilization cycles and continuous steam exposure without degradation of physical properties.

Key Features:

Excellent steam aging resistance
Withstands repeated autoclave cycles (121°C-134°C)
Minimal property change after steam exposure
Low compression set after steam aging
USP Class VI and ISO 10993 compliant grades available
Good tear strength retention

Processing Methods:

Compression molding
Extrusion molding
Post-cure recommended for optimal steam resistance

Typical Applications:

Medical device seals and gaskets
Autoclavable tubing and hoses
Sterilization equipment components
Food processing equipment in steam environments
Laboratory equipment seals
Pharmaceutical manufacturing seals

Specially formulated to achieve exceptional elongation properties exceeding 800% while maintaining good recovery characteristics and durability.

Key Features:

Elongation at break: 700-1000%
Excellent elastic recovery
Superior flexibility at low temperatures
Good tensile strength despite high elongation
Minimal permanent deformation
Maintains properties across temperature range

Processing Methods:

Compression molding for thin sections
Extrusion for flexible tubing
Calendering for thin sheets

Typical Applications:

Expansion joints and flexible connections
Inflatable seals and bladders
Flexible tubing and hoses
Diaphragms and bellows
Protective boots and covers
Flexible electrical insulation

Optimized low-viscosity formulation specifically designed for injection molding processes, offering excellent flow characteristics and fast cure times.

Key Features:

Low viscosity for excellent mold filling
Fast cure cycle times
Good flow into complex mold geometries
Minimal flash formation
Excellent dimensional stability
Balanced physical properties post-cure

Processing Methods:

Injection molding (primary method)
Transfer molding
Optimized for automated production

Typical Applications:

High-volume precision molded parts
Complex geometry components
Automotive interior trim parts
Consumer electronics components
Small precision seals and gaskets
Multi-cavity mold production

Engineered formulation featuring enhanced abrasion resistance through specialized filler systems while maintaining silicone’s excellent temperature and chemical resistance.

Key Features:

Superior abrasion resistance
Excellent wear properties under friction
Good tear strength
Maintains flexibility under wear conditions
Extended service life in demanding applications
Good resilience and recovery

Processing Methods:

Compression molding
Extrusion for wear-resistant profiles
Suitable for surface texturing

Typical Applications:

Rollers and wheels subject to wear
Conveyor belt covers and guides
Wear pads and wear strips
Industrial wiper blades
Textile machinery components
High-friction sealing applications

Specially formulated base compound optimized for custom color matching and pigmentation while maintaining excellent physical properties and color stability.

Key Features:

Excellent color acceptance and dispersion
Superior color stability and non-migration
Wide range of achievable colors
UV resistance for color retention
Good transparency in lightly pigmented grades
Maintains mechanical properties when pigmented

Processing Methods:

Compression molding with color masterbatch
Extrusion with continuous color feeding
Pre-compounding for batch production

Typical Applications:

Consumer product housings and covers
Branded seals and gaskets
Decorative and aesthetic applications
Color-coded identification systems
Medical device components (specific colors)
Automotive trim and accent parts

Advanced formulation designed to withstand gamma radiation, electron beam, and other ionizing radiation exposure for sterilization and nuclear applications.

Key Features:

Excellent gamma radiation resistance (up to 50 kGy)
Minimal property degradation after irradiation
Suitable for repeated sterilization cycles
Maintains elasticity post-radiation
Low compression set after radiation exposure
Good mechanical property retention

Processing Methods:

Compression molding
Extrusion molding
Clean room processing available

Typical Applications:

Radiation-sterilizable medical devices
Pharmaceutical packaging components
Nuclear industry seals and gaskets
Laboratory equipment for radioactive environments
Electron beam sterilized products
Aerospace radiation-exposed components

Innovative formulation featuring inherent self-bonding properties to various substrates without primers or adhesives, simplifying assembly processes.

Key Features:

Excellent adhesion to metals, plastics, and glass
No primer required for many substrates
Self-bonding during vulcanization
Good bond strength and durability
Maintains adhesion through temperature cycling
Resistant to peel and shear forces

Processing Methods:

Compression molding with substrate insertion
In-place gasket forming
Co-molding with metal or plastic inserts

Typical Applications:

Bonded seals and gaskets
Metal-bonded diaphragms
Overmolded assemblies
Vibration isolation mounts
Composite structures
Integrated seal systems

Reinforced formulation achieving higher hardness values (70-80 Shore A) while maintaining silicone’s unique properties for applications requiring greater rigidity.

Key Features:

High hardness: 70-80 Shore A
Excellent dimensional stability
Good load-bearing capacity
Maintains heat resistance
Low compression set despite higher hardness
Good abrasion and wear resistance

Processing Methods:

Compression molding (higher pressure)
Transfer molding
Suitable for precision parts

Typical Applications:

Hard sealing faces and surfaces
Structural support components
Load-bearing rollers
High-pressure seals
Precision molded parts requiring rigidity
Wear plates and protective covers

Extra-soft formulation providing exceptional tactile comfort and cushioning with hardness as low as 10-20 Shore A for consumer and medical applications.

Key Features:

Very low hardness: 10-25 Shore A
Exceptional softness and comfort
Excellent cushioning properties
Good resilience and recovery
Skin-friendly and hypoallergenic
Maintains integrity despite low hardness

Processing Methods:

Careful compression molding
Extrusion for soft profiles
Requires gentle demolding techniques

Typical Applications:

Soft-touch grips and handles
Cushioning pads and bumpers
Medical device contact surfaces
Baby care products
Prosthetic liners and interfaces
Comfort seals and gaskets
Ergonomic contact surfaces

Specialized formulation incorporating detectable fillers for food processing and pharmaceutical applications where contamination detection is critical.

Key Features:

Metal detector detectable
X-ray visible for inspection
FDA compliant formulations available
Distinctive blue color for visual identification
Maintains food-grade properties
Good mechanical properties despite additives

Processing Methods:

Compression molding
Extrusion molding
Clean processing environment required

Typical Applications:

Food processing equipment seals
Pharmaceutical manufacturing gaskets
Conveyor belt components
Food contact surfaces requiring traceability
Bakery and meat processing equipment
Quality control critical applications

Liquid Silicone Rubber (LSR)

Premium fluorosilicone liquid rubber combining silicone’s temperature resistance with exceptional fuel, oil, and solvent resistance for demanding aerospace and automotive applications.

Key Features:

Excellent fuel and oil resistance
Superior solvent resistance
Low-temperature flexibility: -60°C
High-temperature capability: +200°C continuous
Good compression set in fuel/oil environments
Resistant to aviation fuels (Jet A, JP-4, JP-8)
Compatible with automotive fuels (E10, E85)

Processing Methods:

Specialized FLSR injection molding
Higher cure temperatures: 170-200°C
Post-cure mandatory for fuel resistance

Typical Applications:

Aerospace fuel system seals
Automotive fuel line components
Oil-resistant O-rings and gaskets
Chemical processing seals
Aircraft engine seals
Fuel injector components

Premium biocompatible liquid silicone rubber formulated to meet stringent medical device regulatory requirements including USP Class VI and ISO 10993 compliance.

Key Features:

USP Class VI certified
ISO 10993 biocompatibility compliant
FDA Drug Master File (DMF) support available
Implant-grade formulations available
Excellent steam autoclave resistance
Multiple sterilization compatible (autoclave, EtO, gamma, e-beam)
Low extractables and minimal odor

Processing Requirements:

Clean room molding recommended (ISO 7-8)
Post-cure: 200°C for 4 hours (as required)
Comprehensive lot traceability

Typical Applications:

Surgical instruments and devices
Catheters and tubing
Respiratory masks and valves
Drug delivery systems
Wound care products
Implantable device components
Medical seals and gaskets

FDA-compliant liquid silicone rubber specifically formulated for food contact applications, meeting FDA 21 CFR 177.2600 and European food contact regulations.

Key Features:

FDA 21 CFR 177.2600 compliant
EU Regulation 10/2011 conformity
BfR Recommendation XV compliant
LFGB German food law certified
Taste and odor neutral
High transparency options
Temperature range: -40°C to +230°C

Processing Methods:

Liquid injection molding (LIM)
Post-cure required: 200°C for 4 hours
Food-grade mold release agents

Typical Applications:

Baby bottle nipples and pacifiers
Baking molds and cooking utensils
Kitchen gadgets and tools
Food processing equipment seals
Ice cube trays and molds
Beverage dispensing components
Food storage container seals

Advanced formulation engineered for extended service in elevated temperature environments with superior thermal aging resistance and minimal property degradation.

Key Features:

Continuous service temperature: up to 250°C
Intermittent exposure: up to 300°C
Exceptional thermal aging resistance
Low compression set at high temperatures
Minimal hardness change after heat aging
Good dimensional stability
Excellent oxidation resistance

Processing Parameters:

Injection temperature: 160-200°C
Cure time: 40-90 seconds
Post-cure recommended for optimal properties

Typical Applications:

Automotive engine compartment components
High-temperature seals and gaskets
LED lighting fixtures and housings
Oven and appliance door seals
Industrial high-heat applications
Electrical insulation in hot environments

Engineered formulation featuring exceptionally low compression set characteristics for demanding sealing applications requiring long-term recovery and dimensional stability.

Key Features:

Compression set <10% (22h @ 175°C, ASTM D395B)
Excellent sealing force retention
Superior elastic recovery properties
Minimal creep and stress relaxation
Long-term dimensional stability
Good thermal cycling resistance

Processing Methods:

Precision liquid injection molding
Optimized cure profiles for minimal compression set
Post-cure: 200°C for 4 hours (recommended)

Typical Applications:

High-performance O-rings and seals
Precision sealing in hydraulic systems
Automotive transmission seals
Valve seats and diaphragms
Industrial sealing applications
Long-life gasket applications

Innovative adhesion-promoting liquid silicone rubber enabling primerless bonding to various substrates including plastics, metals, and glass during the molding process.

Key Features:

Primerless adhesion to multiple substrates
Excellent bond strength to PA, PBT, PC, ABS
Good adhesion to aluminum and stainless steel
Bonds to glass and ceramic surfaces
Reduces assembly steps and costs
Enables complex multi-material designs
Durable bond under environmental stress

Compatible Substrates:

Glass-filled nylon (PA6, PA66)
PBT and PC/ABS blends
Polysulfone and polycarbonate
Aluminum and stainless steel alloys

Typical Applications:

Overmolded seals on plastic housings
Composite automotive components
Multi-material consumer electronics
Soft-touch grips on rigid substrates
Integrated seal assemblies
Metal-bonded diaphragms

Premium ultra-transparent liquid silicone rubber formulated for optical applications requiring maximum clarity, minimal haze, and excellent light transmission properties.

Key Features:

Exceptional optical clarity and transparency
Light transmission >92% (1mm thickness)
Low haze and minimal yellowing
Refractive index: 1.40-1.43
Excellent UV stability
Superior color stability over time
Available in multiple hardness levels

Processing Requirements:

Ultra-clean molding environment
Precision temperature control
Optical-grade mold finishing

Typical Applications:

LED lenses and light guides
Optical seals and gaskets
Camera module components
Display bonding and sealing
Lighting fixtures and covers
Optical fiber protection
Precision optical instruments

Specialized conductive-grade liquid silicone rubber incorporating carbon black fillers to provide controlled electrical conductivity for EMI/RFI shielding applications.

Key Features:

Volume resistivity: 1-100 Ω·cm
Surface resistivity: <10³ Ω/sq
Excellent EMI/RFI shielding effectiveness
Maintains silicone’s flexibility and resilience
Good compression set resistance
Superior environmental stability
Uniform conductivity distribution

Processing Methods:

Liquid injection molding with conductive tooling
Special handling to maintain conductivity
ESD-safe processing environment

Typical Applications:

EMI/RFI shielding gaskets
Grounding and bonding strips
Conductive keypads and buttons
ESD protection devices
Electronic enclosure seals
Telecommunications equipment
Static dissipative applications

Advanced flame-retardant formulation meeting UL 94 V-0 and V-1 ratings for applications requiring superior fire resistance and low smoke generation.

Key Features:

UL 94 V-0 / V-1 rated formulations
Low smoke generation during combustion
Self-extinguishing properties
Halogen-free options available
Maintains mechanical properties
Good electrical insulation
Temperature resistance maintained

Processing Parameters:

Standard LSR injection molding equipment
Cure temperature: 160-190°C
Post-cure for optimal flame retardancy

Typical Applications:

Wire and cable insulation
Electrical connector seals
Building and construction components
Transportation vehicle interiors
Electronics housing and enclosures
Fire-resistant barriers and seals
Industrial safety equipment

Advanced flame-retardant formulation meeting UL 94 V-0 and V-1 ratings for applications requiring superior fire resistance and low smoke generation.

Key Features:

UL 94 V-0 / V-1 rated formulations
Low smoke generation during combustion
Self-extinguishing properties
Halogen-free options available
Maintains mechanical properties
Good electrical insulation
Temperature resistance maintained

Processing Parameters:

Standard LSR injection molding equipment
Cure temperature: 160-190°C
Post-cure for optimal flame retardancy

Typical Applications:

Wire and cable insulation
Electrical connector seals
Building and construction components
Transportation vehicle interiors
Electronics housing and enclosures
Fire-resistant barriers and seals
Industrial safety equipment

Innovative oil-filled liquid silicone rubber that releases lubricating oil to the surface after curing, providing long-lasting self-lubrication for dynamic sealing applications.

Key Features:

Continuous surface lubrication
Reduced friction and wear
Extended seal life in dynamic applications
Controlled oil bleeding rate
Available in standard and low-volatility grades
Maintains dimensional stability
Good compression set despite oil content

Processing Considerations:

Standard LSR molding equipment
Mold design to accommodate oil migration
Post-cure to stabilize oil distribution

Typical Applications:

Dynamic O-rings and seals
Piston seals and rod wipers
Pneumatic cylinder seals
Valve stems and actuators
Sliding contact applications
Automotive moving parts

High-reactivity formulation engineered for ultra-fast cure cycles enabling maximum production efficiency for high-volume manufacturing applications.

Key Features:

Ultra-fast cure: 20-45 seconds typical
Maximum production throughput
Excellent mechanical properties despite fast cure
Good pot life at room temperature
Minimal post-cure requirements
Energy-efficient processing
Suitable for thin-wall molding

Processing Parameters:

Injection temperature: 170-190°C
Cure time: 20-45 seconds (wall thickness dependent)
High-speed automation compatible

Typical Applications:

High-volume consumer goods
Mass-produced automotive components
Electronics accessories
Baby care products
Disposable medical devices
Thin-wall molded parts

Specialized medical-grade formulation incorporating barium sulfate for X-ray visibility, essential for medical devices requiring radiographic detection.

Key Features:

X-ray visible for radiographic detection
Barium sulfate radiopaque additive
USP Class VI biocompatibility
ISO 10993 compliant
Maintains mechanical properties
Multiple sterilization compatible
Available in various opacity levels

Processing Methods:

Medical-grade clean room molding
Standard LSR processing equipment
Post-cure as required for medical applications

Typical Applications:

Catheters and drainage tubes
Wound drains
Surgical drains and devices
Feeding tubes
Medical balloons
Interventional devices
Implantable components requiring tracking

Innovative low-temperature curing formulation ideal for overmolding thermally sensitive substrates and low-melting-point plastics without damage.

Key Features:

Cure temperature: 115-140°C
Protects heat-sensitive components
Fast cure at reduced temperatures
Compatible with PC, ABS, and other thermoplastics
Good mechanical properties
Minimal thermal stress on substrates
Excellent adhesion to plastics

Processing Advantages:

Enables overmolding of delicate electronics
Reduces substrate warpage
Lower energy consumption

Typical Applications:

Overmolding on electronic assemblies
Seals on thermally sensitive devices
Consumer electronics soft-touch components
LED and lighting overmolding
Wearable device components
Medical device assemblies

Ultra-soft gel-like formulation providing exceptional elongation and cushioning properties for comfort-critical and tactile-sensitive applications.

Key Features:

Hardness range: 10-30 Shore A (very soft)
Elongation at break: >800%
Excellent cushioning and comfort
Superior tactile properties
Skin-friendly and hypoallergenic
Good tear resistance despite softness
Biocompatible formulations available

Processing Considerations:

Gentle demolding required
Careful mold design for soft materials
Standard LSR equipment suitable

Typical Applications:

Soft-touch grips and handles
Cushioning pads and bumpers
Wearable device contact surfaces
Medical device patient interfaces
Prosthetic liners
Earphone tips and seals
Comfort accessories

Reinforced formulation engineered for exceptional tear resistance and durability in demanding applications subjected to mechanical stress and fatigue.

Key Features:

Tear strength: >35 kN/m (Die B)
Exceptional tensile strength: >10 MPa
Superior elongation at break: >700%
Excellent abrasion resistance
Good fatigue resistance under cyclic loading
Maintains properties over temperature range
Low compression set

Processing Methods:

Standard liquid injection molding
Optimized for complex geometries
Post-cure enhances mechanical properties

Typical Applications:

Durable seals and gaskets
Vibration-resistant components
High-stress mechanical parts
Automotive suspension components
Industrial machinery seals
Heavy-duty consumer products
Sports and recreation equipment

Specialized formulation incorporating antistatic agents to prevent dust accumulation and static discharge in sensitive electronic applications.

Key Features:

Surface resistivity: 10⁹-10¹¹ Ω/sq
Prevents dust and particle attraction
Static dissipative properties
Maintains transparency options
Good mechanical properties
Suitable for clean room environments
Long-lasting antistatic performance

Processing Parameters:

Standard LSR injection molding
ESD-safe processing environment
Post-cure stabilizes antistatic properties

Typical Applications:

Electronic device housings
Optical component seals
Medical device surfaces
Clean room applications
Display screen seals
Precision electronic assemblies
3C electronics components

Low-viscosity formulation optimized for coating and impregnating fabrics, providing waterproofing, fire resistance, and enhanced durability to textile materials.

Key Features:

Ultra-low viscosity for fabric penetration
Excellent adhesion to various textiles
Waterproof and breathable options
Flame retardant grades available (UL 94 V-0)
Maintains fabric flexibility and drape
Good abrasion resistance
UV and weather resistant

Processing Methods:

Dip coating and impregnation
Spray coating applications
Continuous coating lines
Cure: 150-180°C

Typical Applications:

Fiberglass fabric coating
Protective clothing and apparel
Industrial curtains and barriers
Airbag coating (automotive/aviation)
Fire-resistant textiles
Electrical insulation sleeves
Outdoor gear waterproofing

Specialized electrical-grade formulation designed for power transmission and high-voltage insulation applications with superior dielectric properties.

Key Features:

Excellent dielectric strength: >20 kV/mm
High volume resistivity: >10¹⁴ Ω·cm
Superior tracking and arc resistance (CTI >600)
Excellent hydrophobicity
UV and weathering resistance
Low compression set under electrical stress
Temperature range: -40°C to +200°C

Processing Requirements:

Clean injection molding environment
Controlled moisture levels
Post-cure for optimal electrical properties

Typical Applications:

High-voltage insulators
Power transmission line components
Electrical connector insulation
Substation equipment
Cable accessories and terminations
Transformer bushings
Lightning arrester housing

Pre-dispersed high-quality pigment concentrates designed for accurate color matching and consistent coloration of liquid silicone rubber products.

Key Features:

Wide color palette available
Heat-stable pigments (up to 250°C)
Cadmium-free and heavy-metal-free
Excellent color consistency
UV-resistant formulations
Does not affect cure characteristics
Compatible with standard LSR grades

Processing Methods:

Dedicated metering mixing equipment
Addition rates: 0.5-5% typical
Inline color dosing systems

Typical Applications:

Consumer product color customization
Brand-specific colored components
Medical device color coding
Baby care product aesthetics
Automotive interior accents
Color-coded identification systems
Decorative consumer goods

Specialty Fluorosilicone & Phenyl Silicone

Versatile fluorosilicone rubber formulation delivering balanced mechanical properties with excellent fuel and oil resistance for general-purpose applications requiring chemical compatibility beyond standard silicone capabilities.

Key Features:

Operating temperature: -60°C to +200°C
Excellent fuel and oil resistance (IRM 901, 903)
Good compression set performance
Superior resilience and flexibility
Hardness range: 40-80 Shore A
Resistant to aviation fuels (Jet A, JP-4, JP-8)
Compatible with automotive fuels (gasoline, diesel, E10, E85)

Processing Methods:

Compression molding (peroxide cure)
Transfer molding
Extrusion (continuous vulcanization)
Calendering for sheet production

Typical Applications:

Fuel system O-rings and seals
Oil-resistant gaskets and diaphragms
Automotive fuel hoses and seals
Aircraft fuel tank components
General industrial fuel/oil applications
Chemical processing seals

Advanced fluorosilicone formulation engineered for exceptional tear resistance and mechanical durability while maintaining superior fuel and media resistance for demanding dynamic sealing applications.

Key Features:

Enhanced tear strength: >25 kN/m (Die B)
Excellent tensile strength: >7 MPa
Superior elongation at break: >400%
Outstanding fuel and oil resistance
Good abrasion resistance
Improved fatigue resistance
Suitable for dynamic applications

Processing Parameters:

Peroxide vulcanization system
Cure temperature: 160-180°C
Post-cure: 200°C for 4 hours (recommended)

Typical Applications:

High-stress fuel system seals
Dynamic O-rings in fuel environments
Automotive turbocharger seals
Aviation hydraulic system components
Heavy-duty industrial seals
Vibration-resistant fuel hoses
Chemical processing equipment

Specialized fluorosilicone rubber specifically engineered for turbocharger applications, featuring exceptional oil resistance, adhesion to substrates, and performance under elevated temperatures and pressures.

Key Features:

Optimized for turbocharger environments
Excellent adhesion to aluminum and steel substrates
Superior oil and fuel resistance
High-temperature stability: up to 200°C continuous
Resistant to engine oils and lubricants
Good compression set under thermal cycling
Ozone and weather resistant

Processing Characteristics:

Excellent extrusion processability
Compatible with hose mandrel curing
Good substrate bonding during cure

Typical Applications:

Turbocharger air ducts and hoses
Charge air cooler connections
Intake manifold seals
Engine oil system components
High-pressure fuel line boots
Diesel engine sealing systems

Premium fluorosilicone compound optimized for extrusion processing, delivering excellent dimensional control, surface finish, and fuel/oil resistance for continuous vulcanization production.

Key Features:

Optimized rheology for extrusion
Excellent die swell control
Superior surface finish
Consistent dimensional stability
Outstanding fuel and media resistance
Good green strength for handling
Fast cure in continuous vulcanization (CV) lines

Processing Advantages:

Minimal die build-up during extrusion
Excellent process stability
Compatible with hot air, steam, or liquid CV
Good splice strength

Typical Applications:

Fuel hoses and tubing
Oil-resistant gasket profiles
Continuous cord seals
Weather-resistant fuel system seals
Aerospace tubing and profiles
Industrial hose liners

Specialized electrical-grade fluorosilicone formulated for outstanding performance in transformer oil environments, combining excellent dielectric properties with superior chemical resistance.

Key Features:

Excellent transformer oil resistance
Superior dielectric strength: >18 kV/mm
High volume resistivity: >10¹³ Ω·cm
Excellent physical and mechanical properties
Minimal swelling in mineral oils
Good thermal aging resistance
Low compression set in oil

Electrical Performance:

Maintains insulation in oil environments
Excellent tracking resistance (CTI >400)
Corona resistant formulation

Typical Applications:

Transformer gaskets and seals
Electrical insulator components
Oil-filled capacitor seals
Power transmission equipment
Electrical switchgear sealing
High-voltage bushings
Oil-immersed cable accessories

Premium aerospace-qualified fluorosilicone meeting AMS specifications for aircraft fuel systems, delivering exceptional reliability and performance in the most demanding aviation applications.

Key Features:

AMS 3325/3330 compliant formulations
Qualified for Jet A, JP-4, JP-5, JP-8 fuels
Temperature range: -65°C to +200°C
Low-temperature flexibility down to -65°C
Excellent compression set: <25% (70h @ 200°C)
Superior weathering and ozone resistance
Traceable lot control and documentation

Aerospace Compliance:

AMS-R-25988 qualified
Full material traceability
Certificate of compliance provided

Typical Applications:

Aircraft fuel tank seals
Aviation fuel system O-rings
Jet engine fuel line seals
Aerospace fuel pump diaphragms
Aircraft hydraulic system seals
Fuel valve components

Advanced formulation engineered for minimal compression set in fuel and oil environments, ensuring long-term sealing force retention in critical static and dynamic applications.

Key Features:

Ultra-low compression set: <15% (22h @ 175°C)
<10% compression set in fuel environments
Excellent sealing force retention
Superior fuel and oil resistance
Good resilience after thermal cycling
Long-term dimensional stability
Minimal creep and stress relaxation

Performance Advantages:

Extended service life in sealing applications
Reduced maintenance intervals
Reliable performance over temperature cycles

Typical Applications:

Critical fuel system O-rings
Long-life aviation seals
Automotive fuel injector seals
High-precision hydraulic seals
Fuel pump diaphragms
Valve seats in fuel systems

Innovative fluorosilicone compound combining fuel resistance with superior flame retardancy for applications requiring both chemical compatibility and fire safety compliance.

Key Features:

UL 94 V-0 flame retardancy
Excellent fuel and oil resistance maintained
Low smoke generation
Self-extinguishing properties
Good mechanical properties
Halogen-free options available
Maintains flexibility after fire exposure

Fire Safety Performance:

LOI (Limiting Oxygen Index): >28%
Low flame spread characteristics
Minimal toxic gas emission

Typical Applications:

Fire-resistant fuel hoses
Aerospace fire barriers with fuel contact
Automotive underhood fire protection
Fire-safe electrical insulation in oil
Transportation safety components
Marine fuel system components

Versatile phenyl-modified silicone rubber featuring balanced mechanical properties with exceptional low-temperature flexibility for applications requiring reliable performance in extreme cold environments.

Key Features:

Outstanding low-temperature resistance: down to -110°C
Glass transition temperature: -120°C
Operating temperature: -110°C to +200°C
Excellent flexibility in cold conditions
Good mechanical property balance
Superior ozone and weather resistance
Maintains resilience at extreme cold

Processing Methods:

Compression molding (peroxide cure)
Extrusion with continuous vulcanization
Transfer molding for complex shapes
Calendering for sheet stock

Typical Applications:

Arctic environment seals and gaskets
Cold climate automotive components
Aerospace low-temperature seals
Cryogenic equipment seals
Refrigeration industry gaskets
Cold storage door seals
Winter sports equipment

Ultra-low temperature phenyl silicone formulation engineered for the most demanding cold environment applications, maintaining flexibility and sealing performance at temperatures approaching -120°C.

Key Features:

Extreme low-temperature capability: -120°C
Lowest glass transition temperature among elastomers
Retains flexibility at cryogenic temperatures
Excellent cold impact resistance
Superior resilience after thermal shock
Good tensile strength at low temperature
Hardness range: 15-40 Shore A

Compliance Standards:

AMS 3332 qualified (aerospace grade)
ASTM D 2137 brittle point: <-103°C
A-A 59588 Class 1A compliant

Typical Applications:

Cryogenic fluid handling systems
LNG (liquefied natural gas) seals
Spacecraft and satellite seals
Polar research equipment
Ultra-low temperature laboratory seals
Aerospace cold environment applications
Arctic oil and gas exploration

Advanced phenyl silicone formulation combining exceptional low-temperature performance with enhanced mechanical strength and tear resistance for demanding dynamic applications.

Key Features:

High tensile strength: >6 MPa at -60°C
Enhanced tear resistance: >20 kN/m at low temp
Excellent elongation: >350% at -80°C
Low-temperature flexibility: -100°C
Superior fatigue resistance in cold
Good abrasion resistance
Hardness: 45-65 Shore A

Aerospace Qualification:

AMS 3345/3346 compliant
Aircraft piston engine oil resistant
Full material traceability

Typical Applications:

Aerospace dynamic seals
Aircraft cold weather O-rings
High-altitude sealing systems
Heavy-duty arctic equipment
Cold climate vibration isolators
Low-temperature shock absorbers

Specialized phenyl silicone compound engineered for exceptional radiation resistance while maintaining superior low-temperature performance for nuclear and space applications.

Key Features:

Outstanding radiation resistance: up to 100 Mrad
Gamma radiation stable
Maintains properties after neutron exposure
Low-temperature capability: -100°C
Minimal property degradation post-irradiation
Good mechanical stability
Self-extinguishing characteristics

Radiation Stability:

Gamma radiation: up to 10⁷ rad
Electron beam sterilization compatible
Minimal off-gassing in vacuum

Typical Applications:

Nuclear power plant seals
Radiation shielding components
Space exploration equipment
Satellite sealing systems
Medical radiation equipment
High-energy physics instruments
Nuclear waste containment

Innovative phenyl silicone combining low-temperature flexibility with superior flame retardancy and self-extinguishing properties for cold environment safety-critical applications.

Key Features:

UL 94 V-0 flame retardancy
Self-extinguishing without additives
Low-temperature performance: -100°C
Excellent burning resistance
Low smoke density
Non-toxic combustion products
Maintains flexibility after flame exposure

Fire Safety Performance:

High limiting oxygen index (LOI >30%)
Minimal flame spread
Low heat release rate

Typical Applications:

Aerospace fire barriers (cold regions)
Aircraft cabin seals (high altitude)
Railway cold climate fire protection
Marine safety equipment (arctic vessels)
Industrial fire-resistant seals
Cold storage fire safety components

Hybrid formulation combining phenyl groups for low-temperature performance with enhanced oil and fuel resistance for cold climate petroleum applications.

Key Features:

Low-temperature flexibility: -90°C
Improved oil and fuel resistance vs. standard PVMQ
Good piston engine oil compatibility
Minimal swelling in petroleum products
Temperature range: -90°C to +200°C
Good compression set in oil
Excellent weather and ozone resistance

Chemical Compatibility:

Aircraft piston engine oils
Automotive lubricants
Diesel fuels at low temperature

Typical Applications:

Cold climate engine seals
Arctic oil exploration equipment
Winter aviation fuel systems
Cold storage hydraulic seals
Refrigeration compressor seals
Cold climate automotive applications

Premium aerospace-qualified phenyl silicone meeting stringent AMS specifications for aircraft and spacecraft applications requiring extreme low-temperature sealing performance.

Key Features:

AMS 3332/3345/3346 compliant
Qualified for high-altitude applications
Temperature range: -115°C to +200°C
Excellent low-pressure flexibility
Superior ozone and UV resistance
Low outgassing in vacuum (ASTM E595)
Full traceability and certification

Aerospace Compliance:

MIL-R-25988 qualified
NASA low-outgassing approved
Complete documentation package

Typical Applications:

Spacecraft environmental seals
High-altitude aircraft seals
Satellite door gaskets
Space station components
Aerospace cabin pressure seals
Rocket engine sealing systems
Cryogenic propellant systems

Specialized phenyl silicone formulation engineered for vibration damping and shock absorption while maintaining excellent low-temperature elasticity and resilience.

Key Features:

Excellent damping characteristics
High loss factor for vibration isolation
Low-temperature flexibility: -100°C
Good dynamic mechanical properties
Superior resilience and energy absorption
Temperature-stable damping performance
Resistance to dynamic fatigue

Damping Performance:

Effective across wide frequency range
Maintains damping at low temperatures
Good vibration isolation ratio

Typical Applications:

Cold climate vibration isolators
Aerospace shock absorbers
Engine mounts for arctic vehicles
Precision instrument dampers
Low-temperature anti-vibration pads
Satellite vibration damping
Cold climate seismic isolators

Room Temperature Vulcanizing Rubber (RTV-2)

Tin-catalyzed condensation-cure RTV-2 silicone featuring ultra-low hardness for highly flexible molds. Excellent for intricate detail reproduction in craft and art applications.

Key Features:

Hardness: 15-25 Shore A (very soft and flexible)
Mix ratio: 100:2 to 100:5 (base:catalyst)
Pot life: 30-60 minutes at 25°C
Cure time: 4-8 hours at room temperature
Low viscosity: 8,000-15,000 cP
Excellent flowability and air release
Shrinkage: <0.2%
Good tear strength: >18 kN/m

Processing Methods:

Brush-on molding for large surfaces
Pour molding for simple shapes
Vacuum degassing recommended
Room temperature cure (15-30°C)

Typical Applications:

Craft and hobby mold making
Sculpture reproduction
Decorative plaster casting
Flexible detail molds
Artistic reproduction
Prototype development

Versatile tin-catalyzed RTV-2 silicone offering balanced flexibility and durability for general-purpose mold making across diverse industrial and craft applications.

Key Features:

Hardness: 25-35 Shore A (medium hardness)
Mix ratio: 100:2 to 100:3 (base:catalyst)
Pot life: 40-80 minutes
Cure time: 6-10 hours at 25°C
Viscosity: 15,000-25,000 cP
Excellent dimensional stability
Shrinkage: <0.25%
Tear strength: >22 kN/m
Good chemical resistance

Performance Characteristics:

High duplication accuracy
Extended mold life (100+ casts)
Excellent release properties

Typical Applications:

Polyurethane resin casting molds
Epoxy resin molds
Concrete decorative products
GRC component molding
Industrial prototyping
Candlemaking molds
Soap manufacturing

Firm tin-catalyzed RTV-2 silicone providing enhanced structural support and dimensional accuracy for production molds requiring rigidity and long service life.

Key Features:

Hardness: 35-45 Shore A (firm)
Mix ratio: 100:2 to 100:3
Pot life: 50-90 minutes
Cure time: 8-12 hours at room temperature
Viscosity: 20,000-30,000 cP
Superior dimensional stability
Shrinkage: <0.15%
High tear strength: >28 kN/m
Excellent shape retention

Processing Advantages:

Minimal mold deformation under load
Suitable for vertical surface application
Good self-supporting properties

Typical Applications:

Production molds for resin casting
Low-melt metal alloy casting
Architectural element reproduction
Large-scale industrial molds
High-volume production molds
Precision mechanical parts

Premium platinum-catalyzed addition-cure RTV-2 featuring ultra-low hardness, high purity, and no cure byproducts for sensitive applications requiring exceptional softness.

Key Features:

Hardness: 10-20 Shore A (gel-like soft)
Mix ratio: 1:1 or 10:1 by weight
Pot life: 20-40 minutes
Cure time: 2-4 hours at 25°C (faster with heat)
Heat cure option: 60-80°C for 30-60 minutes
Odorless and no cure byproducts
Low shrinkage: <0.1%
Optically clear transparency
Food contact compliant (FDA 21 CFR 177.2600)

Quality Advantages:

High purity formulation
No alcohol release during cure
Minimal odor

Typical Applications:

Food-safe molds (chocolate, candy, fondant)
Skin-safe prosthetic molding
Life casting applications
Medical device prototyping
Ultra-detail art reproduction
Flexible soft-touch molds

High-performance platinum-cure RTV-2 silicone delivering optimal balance of flexibility and structural integrity with superior mechanical properties and no cure inhibition.

Key Features:

Hardness: 25-35 Shore A
Mix ratio: 1:1 by weight (convenient)
Pot life: 30-50 minutes at 23°C
Cure time: 4-6 hours at RT / 30 min at 80°C
Translucent to transparent
Shrinkage: <0.1%
Excellent tear strength: >25 kN/m
Superior dimensional accuracy
Can be pigmented with silicone colorants

Processing Features:

Low viscosity for easy mixing
Vacuum degassing optional
Compatible with release agents

Typical Applications:

Precision casting molds
Polyurethane and epoxy casting
Vacuum casting production
Jewelry mold making
Rapid prototyping
Industrial pattern making
Special effects molds

Advanced platinum-cure RTV-2 silicone offering exceptional mechanical strength, optical clarity, and precision for demanding applications requiring rigidity and transparency.

Key Features:

Hardness: 40-60 Shore A (firm/rigid)
Mix ratio: Varies (typically 1:1 or 10:1)
Pot life: 40-60 minutes
Cure time: 6-10 hours at RT / 1-2 hours at 60-80°C
High transparency and optical clarity
Superior tensile strength: >7 MPa
Excellent tear resistance: >30 kN/m
Elongation at break: >400%
Minimal shrinkage: <0.1%

Advanced Properties:

High fidelity detail capture
Excellent shape memory
Superior mold life (200+ cycles)

Typical Applications:

High-detail precision molds
Complex geometry reproduction
Master mold production
Optical component molding
Encapsulation applications
Prototype tooling

Specially formulated RTV-2 silicone engineered for maximum tear resistance and durability in challenging demolding situations and high-volume production environments.

Key Features:

Exceptional tear strength: >35 kN/m (Die B)
Hardness: 25-35 Shore A
Mix ratio: 1:1 (platinum cure)
Enhanced mechanical properties
Superior elongation: >500%
Excellent fatigue resistance
Good chemical resistance
Extended mold life

Durability Features:

Resistant to complex demolding
Handles undercuts and fine detail
Withstands repeated use cycles

Typical Applications:

Deep undercut mold designs
High-volume production molds
Complex geometry molding
Thin-wall part molding
Challenging demolding applications
Industrial manufacturing molds

Rapid-curing RTV-2 silicone formulated for reduced processing time and increased productivity in fast-turnaround molding applications without compromising quality.

Key Features:

Hardness: 20-40 Shore A
Fast pot life: 10-20 minutes
Rapid cure: 1-3 hours at room temperature
Heat cure option: 15-30 min at 60-80°C
Good mechanical properties despite fast cure
Low shrinkage maintained
Platinum or tin catalyst options

Productivity Advantages:

Reduced project turnaround time
Multiple molds per day possible
Suitable for urgent projects

Typical Applications:

Rapid prototyping
Quick-turnaround projects
Rush order production
Small batch manufacturing
Emergency mold repairs
Time-critical applications

Silicone Encapsulant Gels

Versatile two-component platinum-cure silicone gel providing excellent moisture protection and stress relief for general electronic potting and encapsulation applications.

Key Features:

Penetration: 40-100 (1/10 mm, quarter cone)
Mix ratio: 1:1 by weight
Pot life: 30-60 minutes at 23°C
Cure time: 4-8 hours at RT / 1-2 hours at 80°C
Viscosity: 2,000-5,000 cP (flowable)
Excellent flowability around components
Self-leveling properties
Good dielectric strength: >18 kV/mm

Protection Features:

Moisture and humidity barrier
Environmental contamination protection
Vibration dampening

Typical Applications:

PCB assembly potting
Electronic component encapsulation
Sensor protection
Power supply potting
General electronics protection
Control module encapsulation

Ultra-transparent platinum-cure silicone gel engineered specifically for LED module encapsulation, providing exceptional optical clarity and UV stability.

Key Features:

Exceptional optical transparency (>92% transmission)
High refractive index: 1.40-1.42
Excellent UV resistance and stability
Minimal yellowing over time
Penetration: 30-70
Low viscosity for bubble-free potting
Heat cure: 100-150°C for 30-60 minutes
Outstanding optical aging resistance

Optical Performance:

No light scattering or haze
Maintains clarity under thermal stress
Compatible with various LED wavelengths

Typical Applications:

LED module encapsulation
LED strip light protection
Display backlighting
Optical sensor encapsulation
Lighting fixture potting
Automotive LED applications

Advanced silicone gel formulated with thermal fillers to provide superior heat dissipation for power electronics and high-heat-generating components.

Key Features:

Thermal conductivity: 1.0-3.0 W/m·K
Excellent heat transfer properties
Soft gel consistency for stress relief
Mix ratio: 1:1 or 10:1
Operating temperature: -40°C to +200°C
Good electrical insulation maintained
Low thermal resistance

Thermal Management:

Efficient heat dissipation from components
Reduces hot spots in electronics
Extends component lifespan

Typical Applications:

Power electronics potting (IGBTs, MOSFETs)
CPU and processor encapsulation
High-power LED thermal management
Solar junction box potting
Automotive power modules
Industrial power supplies

Extremely soft silicone gel engineered for maximum vibration absorption and shock protection of delicate electronic assemblies and sensors.

Key Features:

Ultra-low penetration: 80-150 (very soft)
Exceptional stress relief properties
Self-healing characteristics
Excellent vibration dampening
Mix ratio: 1:1
Low modulus for minimal stress
Good adhesion to substrates

Protection Capabilities:

Superior shock absorption
Mechanical stress isolation
Thermal cycling protection

Typical Applications:

Sensitive sensor encapsulation
MEMS device protection
Accelerometer potting
Delicate electronic assemblies
Vibration-prone environments
Aerospace electronics
Automotive crash sensors

Rapid-curing silicone gel formulated for high-throughput production environments requiring quick processing without compromising protection performance.

Key Features:

Fast pot life: 15-30 minutes
Rapid cure: 1-2 hours at RT / 15-30 min at 100°C
Penetration: 50-90
Good mechanical properties despite fast cure
Maintains electrical insulation
Low viscosity for easy dispensing

Processing Advantages:

High production throughput
Reduced manufacturing cycle time
Suitable for automated dispensing

Typical Applications:

High-volume electronics manufacturing
Consumer electronics potting
Rapid production assembly
Inline potting processes
Automated dispensing systems

Premium dielectric silicone gel formulated for superior electrical insulation in high-voltage applications requiring maximum breakdown resistance.

Key Features:

Excellent dielectric strength: >20 kV/mm
Volume resistivity: >10¹⁴ Ω·cm
High CTI (Comparative Tracking Index): >600V
Penetration: 40-80
Good corona resistance
Low dielectric constant: 2.8-3.2
Minimal dissipation factor

Electrical Performance:

Superior arc resistance
Long-term electrical stability
Tracking and erosion resistant

Typical Applications:

High-voltage power electronics
Transformer potting
Electric vehicle inverters
Solar inverter encapsulation
High-voltage sensors
Power distribution electronics

Advanced thixotropic silicone gel engineered to maintain position on vertical surfaces and complex geometries without flowing or sagging during cure.

Key Features:

Thixotropic rheology (non-slumping)
Vertical surface application capable
Penetration: 60-100
Mix ratio: 1:1
Good sag resistance
Maintains position during cure
Shear-thinning for easy dispensing

Application Benefits:

Suitable for vertical or overhead potting
No dripping or running
Complex geometry encapsulation

Typical Applications:

Vertical PCB assembly potting
Wall-mounted electronics
Overhead component encapsulation
Complex 3D geometries
Aerospace vertical installations
Automotive underbody electronics

Specialized silicone gel formulated for photovoltaic junction box potting, offering exceptional outdoor weathering and long-term UV stability.

Key Features:

Excellent UV and weathering resistance
Long-term outdoor durability (25+ years)
Thermal conductivity: 0.8-1.2 W/m·K
Operating temperature: -40°C to +150°C
Good moisture barrier properties
Thermal cycling resistant
Low shrinkage: <0.1%

Solar Application Benefits:

IEC 61215 compliant
Prevents potential induced degradation (PID)
Maintains properties under thermal stress

Typical Applications:

Solar panel junction box potting
PV module bypass diode encapsulation
Solar inverter electronics
Outdoor power electronics
Renewable energy systems

High Performance Sealant (RTV-1)

Cellular Silicone Foam & Profiles

Specialized Additives & Compounds

Silicone Fluids & Specialty Oils