Energy Absorption Characteristics of a Carbon Fiber Composite Automobile Lower Rail: A Comparative Study

Abstract: Composite materials have emerged as promising materials in applications where low weight and high strengths are desired. Aerospace industry has been using composite materials for past several decades exploiting their characteristics of high strength to weight ratio over conventional homogenous materials. To provide a wider selection of materials for design optimization, and to develop lighter and stronger vehicles, automobile industries have been exploring the use of composites for a variety of components, ass… Show more

“…The need for improved energy absorption in the event of collision is more apparent than ever in our society due to the emphasis on manufacturing fuel-efficient, compact, and lightweight vehicles. Previous research has delved into the effect of variations in geometry [1][2][3][4] and material [5][6][7][8] on the energy-absorbing response of tubular structural members. The goal is to create suitable designs that can handle severe deformation without fracture.…”

Development of aluminum alloy 6063 T6 and T7 material models and their effects on energy-absorbing characteristics of cross-axial members

“…The need for improved energy absorption in the event of collision is more apparent than ever in our society due to the emphasis on manufacturing fuel-efficient, compact, and lightweight vehicles. Previous research has delved into the effect of variations in geometry [1][2][3][4] and material [5][6][7][8] on the energy-absorbing response of tubular structural members. The goal is to create suitable designs that can handle severe deformation without fracture.…”

Development of aluminum alloy 6063 T6 and T7 material models and their effects on energy-absorbing characteristics of cross-axial members

Development and performance analysis of hybrid composite side door impact beam: An experimental investigation

Evaluating the Performance of Open-type Composite Material Check Dams during Forest Fire Events