Modeling and Prediction of Thermal Cycle Induced Failure in Epoxy-Silica Composites

Abstract: Epoxy resins filled with dielectric mineral particles are frequently used as insulating materials in power industry applications. Due to their excellent dielectric properties and relatively good thermal performance (resistance, ageing and conductivity) their usability is common and extensive. However, the mechanical performance of the resins is influenced by several factors such as resistance to crack propagation, especially in low temperature applications. This phenomenon is normally linked with appearance of… Show more

“…The failure cycle of laminate composites were expressed as a function of stresses and thermal cycles. Kmita et al dealt the mechanical problems of epoxy‐silica composites. The failure model of composites subjected to thermal cycling was presented.…”

Thermal cycling influences on compressive deformations of laminate composites

“…The failure cycle of laminate composites were expressed as a function of stresses and thermal cycles. Kmita et al dealt the mechanical problems of epoxy‐silica composites. The failure model of composites subjected to thermal cycling was presented.…”

Thermal cycling influences on compressive deformations of laminate composites

Effect of thermal cycling on mechanical and thermal properties of basalt fibre-reinforced epoxy composites

Effects of Thermal Shock Cycling on Mechanical and Thermal Properties of Carbon/Basalt Fiber-Reinforced Intraply Hybrid Composites