Which type of adhesive would you avoid in high temperature environments?

Silicone adhesive is typically characterized by its ability to withstand high levels of flexibility and durability across a range of temperatures. However, in high-temperature environments, it can lose its adhesion strength and may not perform as effectively as desired. This susceptibility to degradation when exposed to elevated temperatures makes silicone adhesives less suitable for applications in such conditions.

On the other hand, epoxy adhesives, polyurethane adhesives, and plastic resin adhesives have formulations that can be designed to maintain their performance at higher temperatures. Epoxies are particularly known for their excellent thermal resistance and structural strength, making them a preferred choice for demanding applications. Polyurethane adhesives also exhibit good thermal stability and flexibility, and plastic resins can be tailored to meet specific temperature requirements.

Thus, while silicone adhesives have their advantages, their performance in high-temperature environments can be compromised, leading to their avoidance in such settings.