A statistical approach to predict fatigue failure of leaf springs manufactured with nanotube incorporated epoxy‐woven glass fiber composites

Abstract: In this study, a statistical approach was developed to predict fatigue failure of laminated composite leaf springs prepared with carbon nanotube (CNT) filled epoxy/woven glass fibers. Electrical resistance change method and the Weibull analysis were adopted to develop a statistical approach. The electrical conductivity for successful application of health monitoring of leaf springs was achieved by dispersing 0.4 wt% of CNTs into epoxy resin. In-situ monitoring of damage in composite leaf springs during fatigue… Show more

“…The Weibull distribution is commonly used in reliability engineering and fatigue life determination due to its flexibility and ability to model failure rates over time. 30,34 In industries such as aerospace and automotive, where safety and reliability are crucial, there is a strong emphasis on meeting higher standards. This implies that there is a 90% likelihood that the material or component will successfully withstand the specified number of cycles without experiencing any failures.…”

Comparative study of failure analysis in glass fiber reinforced laminated pin joints under cyclic and static loading conditions

“…The Weibull distribution is commonly used in reliability engineering and fatigue life determination due to its flexibility and ability to model failure rates over time. 30,34 In industries such as aerospace and automotive, where safety and reliability are crucial, there is a strong emphasis on meeting higher standards. This implies that there is a 90% likelihood that the material or component will successfully withstand the specified number of cycles without experiencing any failures.…”

Comparative study of failure analysis in glass fiber reinforced laminated pin joints under cyclic and static loading conditions

Non-destructive health monitoring of glass fibre epoxy composites under fatigue loading using electrical resistance change method