Integrated Computational Material Design for PMC Manufacturing with Trapped Rubber

Abstract: As the use of continuous fiber polymer matrix composites expands into new fields, there is a growing need for more sustainable manufacturing processes. An integrated computational material design framework has been developed, which enables the design of tailored manufacturing systems for polymer matrix composite materials as a sustainable alternative to achieving high-quality components in high-rate production. Trapped rubber processing achieves high pressures during polymer matrix composite processing, utiliz… Show more

“…Finally, in "Integrated Computational Material Design for PMC Manufacturing with Trapped Rubber" [6], a study about the use of continuous fiber polymer matrix composites expanding into new fields is presented. Additionally, in this case, the requirement is a growing need for more sustainable manufacturing processes.…”

Special Issue of Materials focusing on “Finite Element Analysis and Models of Sustainable Manufacturing Processes”

“…Finally, in "Integrated Computational Material Design for PMC Manufacturing with Trapped Rubber" [6], a study about the use of continuous fiber polymer matrix composites expanding into new fields is presented. Additionally, in this case, the requirement is a growing need for more sustainable manufacturing processes.…”

Special Issue of Materials focusing on “Finite Element Analysis and Models of Sustainable Manufacturing Processes”

Analysis of phase change material thermal effects in large-scale proton-exchange membrane fuel cell based on open-source computational fluid dynamics

Advancing heat management in proton-exchange membrane fuel cells through hybrid nano-composite phase change materials