Fuzhou Fuqiang Precision Co., Ltd. |
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1. Enhanced Fire Resistance: EPDM foam has been further developed
to possess improved fire resistance properties. This advancement
ensures that in the event of a battery fire, the foam material can
withstand high temperatures and limit the spread of flames,
providing an additional layer of safety for NEV batteries.
2. Increased Energy Efficiency: Ongoing research and development
have led to the formulation of EPDM foam with enhanced energy
efficiency characteristics. This new variant of foam minimizes
thermal conductivity even further, reducing heat transfer and
optimizing the energy utilization of the battery system.
3. Advanced Moisture Management: The latest generation of EPDM foam
incorporates advanced moisture management features. It not only
resists water ingress but also effectively manages internal
moisture levels within the battery pack. This feature helps to
mitigate potential issues related to condensation, humidity, and
moisture accumulation, further enhancing the battery's performance
and longevity.
4. Improved Structural Integrity: Recent advancements in EPDM foam
production techniques have resulted in foam with higher structural
integrity. This improved strength and durability allow the foam to
withstand higher mechanical stresses, ensuring better protection
for NEV batteries against impacts, vibrations, and mechanical
loads.
5. Customizable Formulations: Manufacturers now offer a wider range
of customizable EPDM foam formulations to cater to specific NEV
battery requirements. These formulations can be tailored to meet
various performance criteria, such as specific thermal insulation
needs, moisture resistance levels, or vibration damping
requirements, providing more flexibility in battery design and
optimization.
6. Sustainable and Eco-Friendly Options: In response to increasing
environmental concerns, eco-friendly variants of EPDM foam have
been developed. These foams are manufactured using sustainable
materials and processes, reducing their environmental impact and
aligning with the growing focus on sustainability in the automotive
industry.
7. Integration of Smart Technologies: EPDM foam has been integrated
with smart technologies to enhance its functionality. For instance,
some variants feature embedded sensors that can monitor
temperature, moisture levels, and other parameters within the
battery pack. This real-time monitoring enables early detection of
potential issues and allows for proactive maintenance and
optimization of the battery system.
8. Compatibility with High-Energy Batteries: With the advancement
of high-energy battery technologies, EPDM foam has been adapted to
ensure compatibility with these systems. The foam's formulation and
design have been optimized to withstand the higher energy densities
and operational conditions associated with next-generation NEV
batteries.
9. Regulatory Compliance: The latest developments in EPDM foam
address evolving regulatory requirements and standards for NEV
batteries. These foams are designed to meet or exceed safety and
performance regulations, ensuring that NEV battery systems using
EPDM foam are in compliance with industry guidelines and
regulations.
10. Cost Optimization: Ongoing research and manufacturing
advancements have led to cost optimization in the production of
EPDM foam. The latest foam variants offer improved performance and
features while maintaining competitive pricing, making them a
cost-effective choice for NEV battery insulation and protection.
These advancements and differentiating factors further strengthen
the position of EPDM foam as a top choice for thermal insulation
and protection in NEV battery applications, providing enhanced
safety, performance, and sustainability for the rapidly evolving
electric vehicle industry.
Parameters | Values |
---|---|
Length(mm) | 1000 |
Material | EDPM Foam |
Shore A | 40±5/70±5 |
Density(g/cm³) | 1±0.2/1.2±0.2 |
Thermal Resistance(m²K/W) | 0.037 |
Tensile Strength(Mpa) | 0.2 |
Compression curve (25 ℃) | µ-3σ≥0.4@15%, µ+3σ≤0.8@20%, µ+3σ≤1.4@30% |
Flame retardancy | UL94V-0 |
Color | Black |
Certificate | ITS16949 ISO9000:2006 |
Temperature control | Yes |
Thermal conductivity coefficient | Yes |
Flame retardancy | Yes |
Quality certification | Yes |
FQ Battery Thermal Insulation is the ideal solution for temperature
management and thermal conductivity. This product is made of
high-quality EDPM foam and has a Shore A rating of 40±5/70±5 and a
Tensile Strength of 0.2Mpa, making it highly reliable and durable.
It also features a Compression set (high temperature aging) rating
of ASTM D1056 C, ensuring it can withstand extreme temperatures.
The product is 1000mm in length and is designed to provide superior
insulation for your batteries. With its superior temperature
management and thermal conductivity, FQ Battery Thermal Insulation
is the perfect choice for your battery needs.
Choose FQ Battery Thermal Insulation for reliable temperature
management and thermal conductivity. Crafted with high-quality EDPM
foam, a Shore A rating of 40±5/70±5, a Tensile Strength of 0.2Mpa,
and a Compression set (high temperature aging) rating of ASTM D1056
C, this product is built to last. Its 1000mm length ensures
superior insulation for your batteries, making it the ideal choice
for reliable temperature management. With its superior quality and
performance, FQ Battery Thermal Insulation is the perfect choice
for your battery needs.
At FQ, we provide customized Battery Thermal Insulation, with the following properties:
FQ provides customers with customized Battery Thermal Insulation that meets their requirements.
We are committed to providing our customers with the highest quality Battery Thermal Insulation products and services. Our technical support and services include:
Our experienced and professional customer service team provides comprehensive support and services to ensure your Battery Thermal Insulation products perform at the highest level. If you have any questions or need assistance, please contact us.