Polychloroprene rubber, commonly known as Neoprene rubber, is a synthetic elastomer that offers a wide range of valuable properties and is widely used in various industries. It is a type of rubber derived from the polymerization of chloroprene monomers.
1. Enhanced Oil Resistance: Recent advancements in polychloroprene rubber formulation have resulted in improved resistance to oils and petroleum-based fluids. This enhanced oil resistance makes it even more suitable for applications in the automotive and industrial sectors where exposure to oils is common.
2. Increased Flexibility: New formulations of polychloroprene rubber offer increased flexibility, allowing for easier processing and improved conformability to complex shapes. This flexibility expands its application potential in areas where intricate designs or tight seals are required.
3. Higher Tear Strength: Ongoing research and development efforts have led to polychloroprene rubber with higher tear strength properties. This increased tear resistance makes it more durable and capable of withstanding rigorous mechanical stresses, extending its lifespan in demanding applications.
4. Low Temperature Flexibility: Some variants of polychloroprene rubber have been developed with enhanced low-temperature flexibility. This feature allows the rubber to maintain its elasticity and performance even under extremely cold conditions, making it suitable for applications in cold climates or refrigerated environments.
5. Improved Electrical Insulation: Advancements in polychloroprene rubber have led to improved electrical insulation properties. This makes it an ideal material for high-voltage applications, where reliable electrical insulation is crucial to prevent electrical leakage and ensure safety.
6. Eco-Friendly Formulations: In response to increasing environmental concerns, eco-friendly variants of polychloroprene rubber have been developed. These formulations are free from harmful chemicals, reducing their impact on the environment and aligning with sustainable manufacturing practices.
7. Enhanced Adhesive Properties: Some polychloroprene rubber variants now offer improved adhesive properties. These rubbers exhibit stronger bonding capabilities, allowing for better adhesion to various substrates and enhancing the performance of adhesive applications.
8. Customizable Color Options: Manufacturers now offer a wider range of customizable color options for polychloroprene rubber. This enables better visual identification or aesthetic integration of the rubber in applications where color coding or appearance is important.
9. Anti-Static Properties: Certain formulations of polychloroprene rubber now incorporate anti-static properties. This feature helps to dissipate static charges, making it suitable for applications where electrostatic discharge (ESD) protection is required, such as in the electronics industry.
10. Regulatory Compliance: The latest developments in polychloroprene rubber address evolving regulatory requirements and standards. These rubbers are designed to meet or exceed safety and environmental regulations, ensuring that applications using polychloroprene rubber comply with industry guidelines.
These advancements and differentiating factors further enhance the versatility and performance of polychloroprene rubber across various industries. The improved oil resistance, flexibility, tear strength, low-temperature flexibility, electrical insulation, adhesive properties, eco-friendliness, customizable color options, anti-static properties, and regulatory compliance contribute to its continued relevance and application in diverse sectors.
The Battery Thermal Management System Insulation Parts from FQ are engineered with the highest quality materials and meet the most rigorous international standards, such as ASTM D 412 /ASTM E1269 - 11/ASTM C273 / C273M-16ASTM D 1056 C/ISO 62-2008/RoHS/REACH/ELV. The product is made of EPDM, a terpolymer of ethylene, propylene and unconjugated diolefins. It is ideal for electric vehicle battery pack insulation.
The Battery Thermal Management System Insulation Parts from FQ features a lightweight design, with a weight of only 2.5kg. It is also highly reliable, with a supply ability of 3000. Additionally, FQ offers payment terms of T/T, and certifications of ITS 16949 ISO 9000:2006.
The Battery Thermal Management System Insulation Parts from FQ also comes with neoprene foam pads for additional insulation. These foam pads provide superior cushioning and excellent thermal insulation, making the product suitable for a wide range of applications.
Parameter | Value |
---|---|
Delivery Time | 7-15 Days |
Current | 20A |
International Standards | ASTM D 412 /ASTM E1269 - 11/ASTM C273 / C273M-16ASTM D 1056 C/ISO 62-2008/RoHS/REACH/ELV |
Application | Electric Vehicle Battery Pack |
Size | 200*150*50mm / Customized |
Temperature Range | -40℃~+85℃ |
Density | 1±0.2/1.2±0.2 |
Compression Curve (25℃) | µ-3σ≥0.4@15% µ+3σ≤0.8@20% µ+3σ≤1.4@30% |
Material | EPDM Is A Terpolymer Of Ethylene, Propylene And Unconjugated Diolefins. |
Product Name | Battery Thermal Management System Insulation Parts |
Main Component | Chloroprene rubber adhesives |
FQ offers custom-made Battery Thermal Management System services with the following specifications:
We offer comprehensive technical support and service for our Battery Thermal Management System product. Our team of experts are available to help you with any issues you may face, from installation to troubleshooting.
We provide a wide range of support options, including online chat, phone support, and email support. Our technical support team is available 24/7 to provide you with the help you need, when you need it.
We also offer a range of on-site services, including installation and maintenance. Our team of highly trained technicians will ensure that your Battery Thermal Management System is running optimally at all times.
If you need any assistance with your Battery Thermal Management System, please don't hesitate to contact us. We look forward to helping you get the most out of your product.
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