Temperature Resistance
FVMQ rubber offers exceptional temperature resistance, with the ability to operate in a wide range of temperatures and handle fluctuations. Ranging from low extremes of -60°C to highs of +260°C, Fluorosilicone excels in applications where frequently exposed to high temperatures.
Versatility
FVMQ rubbers versatility stems from its unique composition, combining the stability of Silicone Rubber with added fluoride groups. This blend imparts distinct properties, making FVMQ rubber suitable for a wide range of industrial applications.
Resistance Properties
A key benefit of FVMQ rubber lies in its resistance properties, particularly against a variety of chemicals, oils and solvents. This chemical resistance makes FVMQ rubber a reliable choice for applications in harsh chemical environments, ensuring the materials longevity and performance integrity over time.
Durability
FVMQ rubber stands as a durable elastomer, capable of withstanding challenging conditions in industries where reliability is paramount. Its resistance to weathering, UV radiation, ozone and its ability to resist degradation from exposure to fuels and chemicals contribute to its long-lasting performance.
Applications of FVMQ Rubber
Aerospace Industry
In the aerospace sector, FVMQ rubber plays a vital role, particularly in demanding applications such as fuel seals and high-performance components where exposure to extreme and harsh conditions is common. Its unique composition grants resistance to solvents, fuels and acids, making the material a preferred choice for gaskets, seals and O-rings used in aerospace engineering.
Chemical Processing
FVMQ rubber proves invaluable in chemical processing plants, offering robust resistance to corrosive chemicals and fluids. Its ability to withstand exposure to challenging environments make it the go-to material when manufacturing components used in chemical processing equipment.
Oil and Gas Sector
In the oil and gas industry, where resilience to hydrocarbons and extreme temperatures are paramount, FVMQ rubber excels. Its primary use in fuel systems at elevated temperatures, coupled with resistance to ozone, UV radiation and weathering, make it an ideal choice for critical applications.
Formulation Design
The experienced technician will design and determine the formulations based on customers' requests about physical properties, applications, working enviroments. For example, specific FVMQ rubber compounds have been developed for injection molding, compression molding, smoother extrusions, enhanced metal bonding.
Raw Material Inspection
Raw gum and fillers will be under strict inspection before put into production. The inspection for raw gum including appearance, Mooney Viscosity, density, typical physical properties.
Material Weighing
Material, fillers, crosslinkers, accelerators will be weighed electronically, to make sure no human effor occurs in every step.
Trial Order Confirmation
The sample will be tailor made in the shortest delivery time. Through the sample order, factory will get better understanding of customers' request about hardness, color, application, physical properties. And customer will get what they exactly need.
Bulk Production
After the confirmation of trial order, the factory will start effeciently mass production. The formulation will be same or improved from the sample formualtion. And to ensure the quality is stable in coming repeated orders.
Production Inspection
The cargo is under severe inspection in the labratory after production. The testing including, appearance, Mooney Viscosity, density, hardness, elongation at break, tear strength, compression set, hot aging resistance, oil resistance etc.
Packing for Delivery
After inspection, the cargo can be well packed suitable for international transportation. Air orders will be pakced in cartons and seashipment will be packed on plywood pallets. The whole lead-in time takes around 5-7 working days.
Appearance inspection
Inspect the appearance of the seal to ensure that there are no obvious defects, cracks, bubbles or other undesirable appearance defects.
Performance testing
Perform performance testing on FVMQ rubber according to the requirements of specific applications. This may include compression performance testing, oil resistance performance testing, temperature resistance performance testing, chemical resistance performance testing, etc. to verify the performance specifications of the seal.
Life test
Under certain working conditions, the seal is subjected to life test to evaluate its durability and reliability in actual use.
The key difference between the two elastomers lies in chemical resistance. Fluorosilicone rubber, adding fluorine groups to the main elastomeric polymer chain, offers superior resistance to fuels, oils, solvents, and other chemicals compared to standard silicone rubber. This makes fluorosilicone an ideal choice for applications where exposure to aggressive fluids is a concern, such as in aerospace fuel systems or automotive oil seals.
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FVMQ Polymer, FVMQ Compound(0/10)
