The strength of EVA (Ethylene Vinyl Acetate) film laminated glass is influenced by several factors, including the microstructure, peel force, and energy of adhesion.
Microstructure: The microstructure of the EVA film and the laminated glass can significantly affect the strength of the overall structure. The arrangement of the layers and the properties of the individual materials can influence the overall strength and durability of the laminated glass. Peel Force: This is the force required to remove a layer of the EVA film from the laminated glass. A higher peel force indicates a stronger bond between the EVA film and the laminated glass, which can enhance the overall strength of the structure. Energy of Adhesion: This refers to the energy required to separate the EVA film from the laminated glass. A lower energy of adhesion suggests a stronger bond, which can improve the strength of the laminated glass. Unfortunately, the search results do not provide specific values or ranges for these factors. However, these factors are typically measured in laboratory settings and can vary depending on the specific formulation of the EVA film and the laminated glass, as well as the manufacturing process.
It’s also worth noting that the strength of laminated glass with EVA film is often compared to standard plain glass panes. Compared to standard plain glass panes, laminated glass has many advantages, such as improved glass panes’ safety, structural strength, and aesthetics.