Functional materials for new energy battery modules are high-performance composite materials specially designed for new energy battery modules, with key structural bonding functions.
Here is a professional description of this product solution:
**Material Application Background**:
- New energy vehicle battery modules operate under extreme environmental conditions, requiring materials with excellent mechanical strength and durability to adapt to harsh working environments.
**Performance Requirements**:
- Materials need to meet stringent safety standards, including but not limited to insulation protection, high temperature and humidity resistance, corrosion resistance, and resistance to electrolyte erosion, to ensure the long-term stable operation of battery modules.
**Structural Bonding and Protection**:
- High-performance structural bonding materials play a key role in the bonding and fixation of battery casings, cell modules, and between cells, providing necessary mechanical support and electrical insulation to prevent insulation failure and potential short-circuit risks caused by vibration and bumps.
**High-Temperature Insulation Protection**:
- High-temperature-resistant insulating composite materials are used to protect the CCS (Cell Control System) hierarchical control circuit in battery modules, ensuring that the data transmission and response of the battery management system are not affected in high-temperature environments, thereby ensuring the operation safety and performance of the battery pack.
**Long-Term Reliability and Stability**:
- The design of internal structural bonding materials focuses on long-term reliability to adapt to various challenges of new energy vehicle battery modules in continuous operation, including temperature fluctuations, humidity changes, and chemical corrosion.
**Comprehensive Performance**:
- The comprehensive performance of this material meets the high-standard requirements of new energy vehicle battery modules for structural strength, electrical safety, environmental adaptability, and long-term stability, and is a key factor in ensuring the overall performance and safety of the battery system.