Epoxy is an important thermosetting polymer for wide range of structural applications like
aerospace, automobile, and civil construction. It is brittle in nature due to the formation of a …

Reducing the risk and severity of injuries during collisions is achieved through the design of
crashworthy structures and systems within the vehicle. In this study, the crashworthiness …

In this article, the performance of transversely loaded glass fiber reinforced epoxy (GFRE)
tubular components containing carbon nanopowder (CNP) in terms of crashworthiness was …

This research aimed to understand how the incorporation of nanocarbon powder (NCP)
influences the crashworthiness performance of glass fiber‐reinforced epoxy (GFRE) tubular …

The crashworthiness capability of laterally loaded glass/epoxy (GFRE) tubular components
containing halloysite nanotubes (HNTs) was explored in this article. GFRE components filled …

Due to their major qualities, including light weight, fracture toughness, increased stiffness,
and impact energy absorption capacity, thin-walled structures composed of nanocomposite …

This article experimentally examines the crashing performance and failure mechanisms of
jute fiber (J)-reinforced epoxy/aluminum (Al) hybrid pipes with circular cutout. Wet wrapping …

This study examines how the infill configuration and density can affect the crashworthiness
and crash history of 3D-printed configurations exposed to quasi-static axial loading …

This paper calculates the crashworthiness capability of glass‐reinforced epoxy composites
over wrapped polyvinyl chloride (PVC) circular tubes with a triggering mechanism in the …

The objective of this research is to investigate the effect of different infill pattern structures on
the deformation behavior and crashworthiness performance of 3D-printed tubes under quasi …