- Aerospace industry. High resilience type fluorosilicone rubber is used in seals and gaskets for fuel systems and hydraulic systems due to its resistance to aviation fuels and extreme temperature variations.
- Automotive industry. High resilience type fluorosilicone rubber is utilized in engine seals, fuel lines, and other components that are exposed to oil, grease, and various chemicals, ensuring durability and performance.
- Industrial applications. This fluorosilicone rubber is suitable for gaskets and o-rings in chemical processing equipment, where exposure to aggressive chemicals is common.
- Electronics. High resilience type fluorosilicone rubber is also used in potting compounds and insulators that protect electronic components from moisture, chemicals, and temperature fluctuations.
High Resilience Type Fluorosilicone Rubber
High resilience type fluorosilicone rubber is crafted from a non-catalytic fluorosilicone rubber base, blended uniformly with various fillers and additives. This material combines the advantages of both silicone and fluorine rubber, resulting in exceptional high elasticity performance. Its unique formulation not only enhances resilience but also ensures durability, making it an ideal choice for applications requiring reliable and flexible materials.
Technical Parameters
| Product Name | High Resilience Type Fluorosilicone Rubber | ||||||
| Catalog | ALOS-SILI-337 | ALOS-SILI-338 | ALOS-SILI-339 | ALOS-SILI-340 | ALOS-SILI-341 | ALOS-SILI-342 | |
| Appearance | Translucent | Translucent | Translucent | Light yellow | Translucent | Translucent | |
| Hardness | 28 HSA | 40 HSA | 48 HSA | 60 HSA | 70 HSA | 80 HSA | |
| Tensile Strength | 10.2 MPa | 9.5 MPa | 9.5 MPa | 10.2 MPa | 9.9 MPa | 8.1 MPa | |
| Tear Strength | 18 kN/m | 26 kN/m | 19 kN/m | 22 kN/m | 21 kN/m | 16 kN/m | |
| Elongation | 485% | 494% | 363% | 296% | 241% | 159% | |
| Compression Set (177°C, 22h) | 9% | 8% | 8% | 7% | 8% | 9% | |
| Specific Gravity | 1.38g/cm3 | 1.41g/cm3 | 1.42g/cm3 | 1.43g/cm3 | 1.45g/cm3 | 1.47g/cm3 | |
| Rebound Resilience | 41% | 35% | 46% | 40% | 37% | 39% | |
| Heat Resistance(225°C, 72h) | Hardness Change | +2HSA | +2HSA | +3 HSA | +2HSA | +2HSA | +3 HSA |
| Tensile Strength Change | -18% | -17% | -21% | -25% | -20% | -19% | |
| Elongation at Break Change | -19% | -16% | -18% | -21% | -16% | -15% | |
| Curing Condition | 0.7 phr 2,5-Dimethyl-2,5-di(tert-butylperoxy)hexane(DBPH), Press cure: 170°C*15min, Post cure: 200°C*4h | ||||||
Performance
- Exceptional resilience. The high resilience type fluorosilicone rubber exhibits remarkable elasticity, enabling it to quickly return to its original shape after deformation. This characteristic ensures prolonged durability and performance under stress.
- Outstanding mechanical properties. This material boasts superior mechanical strength and flexibility, making it suitable for various demanding applications. Its robust structure allows it to withstand significant forces without compromising its integrity.
- Excellent resistance to oil and solvents. High resilience type fluorosilicone rubber is designed to offer exceptional resistance to oils and a wide range of solvents, ensuring its effectiveness in environments where exposure to these substances is common.
- Broad temperature range. This fluorosilicone rubber functions effectively across an extensive temperature spectrum, operating reliably in conditions ranging from -60°C to 225°C. This versatility makes it ideal for extreme environments.
- Environmentally friendly. Committed to sustainability, high resilience type fluorosilicone rubber is produced with environmentally friendly processes and materials, making it a responsible choice for eco-conscious industries.
Applications
High resilience type fluorosilicone rubber is known for its excellent properties, making it suitable for a wide range of applications. Here are some common applications:
