The rapid development of the new energy vehicle industry has put forward higher requirements for the safety and lightweight of
power batteries. Carbon fiber composites, with their characteristics of high strength, high modulus, and low density, have become an ideal
choice for battery enclosures. However, high manufacturing costs and complex processes have restricted their large-scale application. This
study focuses on low-cost molding processes for carbon fiber composite battery enclosures, comparatively analyzes the economy and applicability of various technologies, and explores paths to improve mechanical properties through material selection, structural design, and process
parameter optimization. It aims to provide low-cost and high-performance solutions for the industry and promote technological progress in
core components of new energy vehicles.

Carbon fiber composites; Battery enclosures; Low-cost manufacturing; Mechanical properties; Structural optimization

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