Product Summary
HONG YE SILICONE’s Liquid Foamed Silicone is an anti-static 2-component Addition Curing Silicone, featuring excellent static dissipative performance (surface resistance 10⁶-10⁹ Ω), anti-static, no static accumulation, suitable for electronic, semiconductor and static-sensitive scenarios. It has fine uniform closed-cell pores, -65℃-200℃ temperature resistance, 1:1 easy operation, passed SGS anti-static certification, compatible with Electronic Potting Compound and high-precision Mold Silicone , serving B2B buyers in electronic, semiconductor and static-sensitive industries.
Product Overview
HONG YE SILICONE’s Liquid Foamed Silicone (Foaming Silicone Rubber, Silicone Foam ) is an anti-static static dissipative core product, specially developed for electronic, semiconductor and static-sensitive environments. As a 2-component addition curing silicone, it is formed by chemical foaming of flowable Part A and Part B, formulated with anti-static agents and static dissipative modifiers, featuring static dissipative performance, anti-static, no static accumulation, fine uniform closed-cell structure, good elasticity and static stability. It has a surface resistance of 10⁶-10⁹ Ω, effectively dissipating static electricity, preventing static damage, solving the problem of traditional foaming materials’ static accumulation in electronic scenarios. Compatible with most of our electronic and semiconductor products, it is ideal for anti-static components, static dissipative buffers and static-sensitive scenarios.
Technical Specifications
Type: 2-component addition curing silicone
Anti-Static & Static Dissipative: Surface resistance 10⁶-10⁹ Ω, anti-static, static dissipative, no static accumulation, static stability ≥95%, no static rebound
Foaming Feature: Fine uniform closed-cell pores (20-40μm), anti-static structure, dense pore distribution, uniform static dissipation, no static accumulation
Temperature Range: -65℃ to 200℃ (long-term use)
Mixing Ratio: 1:1 (Part A:Part B, by weight)
Cure Method: Room-temperature or heated (80℃, 1h) vulcanization
Certifications: SGS eco-toxicity, RoHS, SGS anti-static certification
Key Traits: Anti-static, static dissipative, surface resistance 10⁶-10⁹ Ω, no static accumulation
Packaging: Part A (20/25/200KG/barrel), Part B (20/25/200KG/barrel)
Product Features & Advantages
1. Excellent Anti-Static Performance: Surface resistance 10⁶-10⁹ Ω, static dissipative, solving the problem of traditional foaming materials’ static accumulation in electronic scenarios.
2. No Static Accumulation: Effectively dissipates static electricity, prevents static damage to electronic components and semiconductors, ensuring product safety.
3. Anti-Static & Elasticity Balance: While maintaining anti-static and static dissipative performance, it retains good elasticity and structural stability, no brittle fracture, balancing static protection and usability.
4. Compatibility with Electronic Products: Compatible with HONG YE SILICONE’s electronic Potting Compound and high-precision mold silicone, forming a complete anti-static solution, enabling one-stop procurement. 5. Easy Operation: 1:1 simple mixing ratio, good flowability, easy to process into anti-static components, no professional anti-static operation skills required, improving production efficiency.
How to Use
1. Take Part A and Part B according to 1:1 weight ratio, stir separately in a static-free environment to eliminate sediment, ensure no impurities (avoid affecting anti-static performance).
2. Mix and stir thoroughly for 3 minutes until homogeneous, vacuum degas to remove air bubbles (ensure anti-static uniformity and closed-cell structure).
3. Pour the mixture into anti-static component mold (paired with electronic potting compound), foam and cure at room temperature or by heating.
4. After full curing, the product has excellent anti-static performance, ready for use in electronic and static-sensitive scenarios.
Application Scenarios
Focus on anti-static scenarios: Electronic anti-static buffers (paired with electronic potting compound), semiconductor static dissipative components (paired with high-precision mold silicone), static-sensitive parts (paired with Industrial mold silicone rubber), anti-static robot parts (paired with robot silicone), and electronic packaging (paired with Liquid Tank Silicone). It helps electronic buyers prevent static damage and ensure product quality.
Certifications and Compliance
Passed SGS eco-toxicity certification, RoHS compliant, SGS anti-static certification, excellent anti-static and static dissipative performance, meeting the anti-static procurement requirements of B2B buyers in electronic, semiconductor and static-sensitive industries, facilitating export to global markets.
Customization Options
Customizable surface resistance (10⁵-10⁸ Ω for high-demand scenarios), static dissipative speed, foaming ratio and hardness, adapting to different anti-static and static-sensitive requirements, helping buyers optimize static protection effect.
Production Process
Anti-static-oriented production process: High-purity anti-static Silicone raw materials → formula optimization (add anti-static agents and static dissipative modifiers) → precision mixing in static-free workshop → anti-static test → static dissipative test → standardized curing → static stability inspection → packaging. Strict anti-static testing ensures product effective static dissipation and no static accumulation.
FAQ
Q1: What is the surface resistance? A: 10⁶-10⁹ Ω, excellent static dissipative performance, effectively dissipating static electricity.
Q2: Will it accumulate static electricity? A: No, anti-static formula ensures no static accumulation, preventing static damage to electronic components.
Q3: Is it suitable for semiconductor scenarios? A: Yes, paired with high-precision mold silicone, ideal for semiconductor static dissipative components and static-sensitive parts.
Q4: Will high temperature affect its anti-static performance? A: No, static stability ≥95%, anti-static performance remains unchanged in -65℃-200℃, ensuring static protection in high-temperature electronic scenarios.
Shenzhen Hong Ye Jie Technology Co., Ltd
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