Optical Instruments: Outgassing Prevention in High-Precision Lens Housing
Problem Statement
High-precision lens housings require materials that prevent outgassing under vacuum conditions. Outgassing leads to contamination, fogging, and reduced optical clarity. Traditional elastomers like NBR degrade at elevated temperatures, releasing volatile organic compounds (VOCs).
Material Science Analysis
Outgassing occurs due to low molecular weight additives and polymer chain breakdown. FKM (Fluorocarbon Rubber) excels due to its high fluorine content (66-70%), which provides thermal stability and chemical resistance. FKM minimizes VOC release, ensuring optical clarity in vacuum environments.
Technical Specs
- Material: FKM (Grade: Viton® GLT)
- Shore A Hardness: 75 ± 5
- Tensile Strength: 18 MPa
- Elongation at Break: 200%
- Temperature Range: -20°C to 200°C
- Compression Set: 15% (22 hrs @ 200°C)
Material Comparison
| Parameter | FKM (Viton® GLT) | EPDM | Silicone |
|---|---|---|---|
| Outgassing (μg/cm²) | ≤ 0.1 | ≥ 1.5 | ≥ 0.5 |
| Temperature Range (°C) | -20 to 200 | -50 to 150 | -60 to 230 |
| Compression Set (%) | 15 | 25 | 20 |
| Chemical Resistance | Excellent | Good | Fair |
Standard Compliance
RubberQ adheres to IATF 16949 standards for batch-to-batch consistency. Materials comply with ASTM D2000 for elastomer classification and ISO 3601 for sealing performance. Our in-house compounding ensures precise control over polymer ratios and curing agents.
For custom material compound development or IATF 16949 documentation, consult RubberQ’s engineering department.
Subscribe to Technical Updates
Receive new material insights and engineering case notes directly by email.
Related Articles
Apr 05, 2026
Liquid Silicone Rubber (LSR) Tooling: Why Initial Investment Pays Off in Precision.
Liquid Silicone Rubber (LSR) Tooling: Why Initial Investment Pays Off in Precision Problem Statement High-cycle manufacturing of precision components, such as EV battery seals and AI server gaskets, demands materials with exceptional dimensional stability and chemical resistance. Traditional elastomers like EPDM and NBR often fail under extreme thermal cycling and aggressive chemical exposure, leading to […]
Read articleApr 05, 2026
High-Tonnage Vulcanization: Managing Large-Scale Industrial Rubber Components.
High-Tonnage Vulcanization: Managing Large-Scale Industrial Rubber Components Problem Statement Large-scale industrial rubber components, such as conveyor belts and hydraulic seals, face premature failure under high-tonnage vulcanization. Common issues include chemical degradation at temperatures exceeding 200°C and compression set failure during high-pressure cycles. Material Science Analysis Standard EPDM polymers fail under extreme heat due to their […]
Read articleApr 05, 2026
Commercial Aircraft Interiors: Meeting Smoke and Toxicity Standards (FST).
Commercial Aircraft Interiors: Meeting Smoke and Toxicity Standards (FST) Problem Statement Polymer components in aircraft interiors must pass FAR 25.853 flammability tests while maintaining mechanical performance. Standard EPDM fails at 180°C with toxic smoke emission (HCN >100 ppm). Material Science Analysis Chloroprene rubber (CR) releases HCl gas during combustion. Fluorosilicone (FVMQ) provides superior thermal stability […]
Read articleNeed technical consultation?
Our engineering team can help apply these material insights to your specific project.
REQUEST A QUOTE