As technology in the optics industry continues to advance and improve, careful consideration of the properties of epoxies must be evaluated. When determining the most effective adhesive to be used in opto-electronics, medical and other optic related industry applications, trade-offs of key characteristics should be assessed.

Many of today’s intricate electronic assemblies are highly sensitive to the effects of temperature excursions, shock and vibration. An effective design strategy for managing thermal stress is to use stress absorbing materials to bond and encapsulate components. Design engineers can learn more about finding ways to minimize or relieve stress in this white paper.

The development of epoxy based underfill encapsulants marked a turning point for flip chip technology, and the semiconductor industry. Underfill encapsulants are carefully formulated to ensure flowability, an acceptable CTE, and other desirable properties.

The combination of increasingly complex assemblies and exacting quality requirements is compelling design engineers to be extremely diligent when selecting materials for the assembly of medical electronic devices. In this white paper, we explore various polymer chemistries and what the different families of compounds have to offer for performance and processing requirements.

Modern electronics have become part of our daily lives and the sophisticated electronic circuitry at the heart of these devices and systems must be reliable. Conformal coatings act as a barrier between the electronics and the environment, protecting the areas they cover while strengthening delicate components and traces.

Adhesives in space applications are subject to high vacuum and extreme temperatures, making adhesive choice a critical design consideration. Learn how low outgassing epoxies satisfy these stringent conditions ensuring reliable space applications.

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