Product Summary
HONG YE SILICONE’s Liquid Foamed Silicone is a radiation-resistant 2-component Addition Curing Silicone, featuring excellent radiation resistance (resistant to γ-ray radiation ≤100 kGy), no performance degradation after radiation exposure, non-toxic, odorless. It has fine uniform pores, -65℃-200℃ temperature resistance, 1:1 easy operation, passed SGS radiation resistance certification, compatible with Medical Grade Body Silicone and Industrial mold silicone rubber, serving B2B buyers in radiation scenarios.
Product Overview
HONG YE SILICONE’s Liquid Foamed Silicone (Foaming Silicone Rubber, Silicone Foam ) is a radiation-resistant core product, specially developed for nuclear and medical radiation scenarios. As a 2-component addition curing silicone, it is formed by chemical foaming of flowable Part A and Part B, formulated with radiation-resistant components, featuring excellent radiation stability, fine uniform pores, good elasticity and stable performance, which can resist γ-ray and other radiation, no aging, no performance degradation after radiation exposure. Compatible with most of our core products, it is ideal for radiation environment sealing, filling and protection.
Technical Specifications
Type: 2-component addition curing silicone
Radiation Resistance: Resistant to γ-ray radiation ≤100 kGy, no performance degradation after radiation
Foaming Feature: Fine uniform pores, radiation-resistant, no pore collapse under radiation
Temperature Range: -65℃ to 200℃ (long-term use)
Mixing Ratio: 1:1 (Part A:Part B, by weight)
Cure Method: Room-temperature or heated rapid vulcanization
Certifications: SGS eco-toxicity, RoHS, SGS radiation resistance certification
Key Traits: Radiation-resistant, non-toxic, stable after radiation, durable
Packaging: Part A (20/25/200KG/barrel), Part B (20/25/200KG/barrel)
Product Features & Advantages
1. Excellent Radiation Resistance: Resistant to γ-ray radiation ≤100 kGy, no aging, no brittle fracture, no performance degradation after radiation exposure, solving the problem of traditional foaming materials’ easy degradation under radiation, suitable for nuclear and medical radiation scenarios.
2. Radiation Safety: Non-toxic, odorless, no harmful substances released after radiation exposure, safe for use in medical radiation and nuclear industry scenarios, ensuring operator and equipment safety.
3. Radiation & Performance Stability: After radiation exposure, it retains good elasticity, sealing and durability, no dimensional drift, no performance loss, ensuring long-term stable operation in radiation environments.
4. Radiation Scenario Compatibility: Compatible with HONG YE SILICONE’s medical grade body silicone and industrial Mold Silicone rubber, forming a complete radiation-resistant solution, enabling one-stop procurement for radiation scenario buyers. 5. Easy Radiation-Resistant Operation: 1:1 simple mixing ratio, good flowability, easy to fill into radiation equipment gaps and molds, no professional radiation-resistant operation skills required, improving production efficiency.
How to Use
1. Take Part A and Part B according to 1:1 weight ratio, stir separately to eliminate sediment, ensure no impurities (avoid affecting radiation resistance).
2. Mix and stir thoroughly for 3 minutes until homogeneous, vacuum degas to remove air bubbles (ensure radiation resistance uniformity and product performance).
3. Pour the mixture into radiation equipment mold or gap (paired with medical grade body silicone or industrial mold silicone rubber), foam and cure at room temperature or by heating.
4. After full curing, the product can be used directly in radiation environments, no performance degradation after radiation exposure.
Application Scenarios
Focus on radiation scenarios: Medical radiation equipment sealing (paired with medical grade body silicone), nuclear industry equipment filling (paired with industrial mold silicone rubber), radiation-resistant electronic component protection (paired with Electronic Potting Compound), radiation-resistant medical auxiliary parts (paired with medical grade body silicone), and radiation-resistant robot components (paired with robot silicone). It helps radiation scenario buyers improve product stability and safety.
Certifications and Compliance
Passed SGS eco-toxicity certification, RoHS compliant, SGS radiation resistance certification, resistant to γ-ray radiation ≤100 kGy, meeting the radiation-resistant procurement requirements of B2B buyers in nuclear and medical industries, facilitating export to global radiation scenario markets.
Customization Options
Customizable radiation resistance level (up to γ-ray radiation ≤150 kGy), foaming ratio, viscosity and curing time, adapting to different radiation intensity requirements of various scenarios, helping buyers optimize product radiation resistance performance.
Production Process
Radiation-resistant-oriented production process: High-purity radiation-resistant Silicone raw materials → formula optimization (enhance radiation stability) → precision mixing → radiation resistance test (γ-ray ≤100 kGy) → standardized curing → radiation performance inspection → packaging. Strict radiation testing ensures product stability in radiation environments.
FAQ
Q1: What radiation can it resist? A: Resistant to γ-ray radiation ≤100 kGy, stable performance after radiation.
Q2: Will it release harmful substances after radiation? A: No, non-toxic, odorless, no harmful substances released after radiation.
Q3: Is it suitable for medical radiation equipment? A: Yes, paired with medical grade body silicone, ideal for medical radiation equipment sealing.
Q4: Does it retain elasticity after radiation exposure? A: Yes, maintains good elasticity, no brittle fracture or performance degradation.
Shenzhen Hong Ye Jie Technology Co., Ltd
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