Aerospace Material Standards
The aerospace material standards allow various companies around the world to test these materials in order to evaluate their thermal, optical, mechanical, chemical, and electrical properties.
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High Temperature Resistance Selection
Abstract AVFOP''08 K.LY
This invited paper presents a summary of qualification data and tests applied for harsh environment optical interconnect solutions and more especially optical transceivers.
MIL-HDBK-978B
These can be used wherever high capacitance stability with tenperature is required, or where a specific characteristic is required to compensate for temperature variations of other circuit components.
Search Standards
AeroPaks offer a cost-effective and convenient way to access the 8,000+ SAE aerospace standards, specifications, recommended practices, and resource documents available in SAE MOBILUS.
MIL-STD Standards: Guide to Military Specifications & Compliance
Learn how MIL-DTL specifications like 38999, 26482, and 24308 enable rugged, secure, and high-performance connections between components. These standards govern the circular and D-sub
Protecting aerospace, aviation & defense electronics | SCHOTT
Discover how SCHOTT''s hermetic packaging solutions set new standards in reliability, temperature resistance, and lightweight housing designs for mission-critical electronics.
Durability of Optical Aerospace Coatings in Harsh Space
Discover how to protect space-rated optical systems with durable anti-reflective coatings that withstand extreme temperatures, radiation, and atomic oxygen exposure.
DEPARTMENT OF DEFENSE HANDBOOK
This handbook is the technical baseline for the design and construction of electronic equipment for the Department of Defense. It captures in one document, under suitable subject heading, fundamental
Harsh Environments Fibers
With a capability to withstand temperatures up to 350°C briefly and 300°C continuously, polyimide is the optimal choice, providing chemical resistance and radiation protection. Developed through the 3F2E
Selection Guide for Space & High-Temperature Lens Systems
This guide addresses the critical material trade-offs—from low-CTE substrates like Zerodur to specialized high-temperature focal lens materials—and provides a technical selection framework.