Assessment of the Compressive Mechanical Behaviour of Injection Molded E-Glass/Polypropylene by Mechanical Testing and X-Ray Computed Tomography

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Abstract

Nowadays, thermoplastic composite materials are considered among the most promising ones as they are gaining the interest of many industrial sectors due to their eco-friendly features such as their recyclability and their low-cost demand while being produced in high volumes. Especially in the automotive industry, there have always been used injection molded thermoplastics reinforced with glass fibers. Among the most concerning issues regarding the injection molded, short fiber-reinforced composites are the fiber distribution, the fiber orientation, and their effect on the overall mechanical performance. In the present work the effect of the injection molding on the compressive properties is investigated experimentally. To this context, compressive mechanical tests have been conducted in a range between sub-zero and elevated temperatures. In addition, X-Ray computed tomography is implemented for characterizing some crucial features. Among them, the fiber volume fraction, in local and global scale, and the orientation of the fibers through the thickness and length of the material are investigated.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00
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License: CC-BY-4.0