5295 Thermal Conductive Silicone Potting Compound 1:1 Mix UL94V-0
Price:
Negotiation
MOQ:
500 kg
Delivery Time:
5-8 days
Brand:
Huitian
Product Description
5295 Thermal Conductive 1:1 Two-Part Addition-Type Potting Compound, UL94V-0 Flame Retardant
Used for PV Inverters, LED Drivers, Charging Piles, Automotive Electronics, NEV Power & Controllers.
Product Attributes
| Attribute | Value |
|---|---|
| Material base | Silicone |
| Color | White |
| Mix Ratio | 1:1 |
| Density | 1.65~1.75 |
| Viscosity | 4,500~6,500 |
| Operating time | 10~20 mins |
| Curing time (80℃) | ≤30 mins |
| Hardness | 30~40 shore A |
| Work Temperature | -60~200℃ |
Product Description
Huitian 5295 is a cutting-edge two-part addition-type potting compound tailored for demanding electrical and electronic applications. Boasting a 1:1 mixing ratio for hassle-free handling, thermal conductivity to effectively manage heat, and UL94V-0 flame retardancy, it offers a robust solution to protect components from environmental hazards while ensuring efficient thermal management. Perfect for power-hungry devices, it strikes a balance between production efficiency and long-term performance, simplifying the manufacturing process and boosting product durability.
Product Applications
Huitian 5295 thrives in scenarios where heat dissipation, flame safety, and mechanical stability are of utmost importance:
- PV Inverters: Seals power modules, enhancing thermal efficiency and shielding against dust and moisture.
- LED Drivers: Encapsulates circuitry to control heat accumulation, thus prolonging the lifespan of LEDs.
- Charging Piles (EV Chargers): Protects internal components from vibration, moisture, and high temperatures during rapid charging.
- Automotive Electronics: Secures ECUs, sensors, and actuators, withstanding temperature variations and mechanical stress.
- NEV Power & Controllers: Ensures thermal stability and flame resistance in new energy vehicle power systems, reducing fire risks.
Product Features
- Efficient Thermal Management
Equipped with optimized thermal conductivity, it effectively prevents overheating and component failure in heat-intensive devices. - UL94V-0 Flame Retardancy
It meets strict fire-safety standards, significantly reducing fire hazards in electrical systems. - 1:1 Mixing Simplicity
The equal-part mixing (by weight or volume) reduces measurement errors, speeding up production and ensuring consistent curing. - Addition-Cure Technology
This technology enables curing without by-products (such as alcohol or water), leading to low shrinkage and excellent dimensional stability, making it ideal for precision potting. - Superior Electrical & Mechanical Properties
With high electrical strength and insulation resistance, it protects against short circuits. The flexible cured matrix absorbs vibration and shock, improving long-term reliability. - Wide Temperature Adaptability
It performs reliably in extreme temperature conditions, matching the operating ranges of automotive and industrial electronics.
Product Specifications
| Parameter | Details |
|---|---|
| Model | Huitian 5295 |
| Type | Two-part addition-type potting compound |
| Mixing Ratio | 1:1 (weight/volume) |
| Thermal Conductivity | ≥0.7 W/(m*K) |
| Flame Rating | UL94V-0 |
| Curing Condition | Room temperature (25℃, 24h) or accelerated at 80℃/1h |
| Operating Temperature | -40℃ to 125℃ |
| Dielectric strength | ≥16 kV/mm (ASTM D149) |
| Volume Resistivity | ≥1×10¹⁵ Ω*cm (ASTM D257) |
Packaging & Storage
- Packaging: Available as separate containers of Part A and Part B (25kg + 25kg drums).
- Storage: Store in a cool, dry place (0-35℃). Avoid direct sunlight and moisture.
- Shelf Life: 12 months from the manufacturing date when stored unopened.
- Handling: Seal containers after use to prevent moisture contamination, as addition-cure systems are sensitive to moisture.
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Get in Touch
Have questions about our products or want to discuss a custom order? Our team is ready to help you.
Company
Shanghai Huitian New Material Co., Ltd
Location
No. 251, Wenji Road, Songjiang District, Shanghai China
Contact Person
Simon Dou