Mechanical Performance of Flax Fiber Composites with Waste Glass Fibers as a Core Structure

• Published in: Materials Vol. 15; no. 24; p. 9017
• Main Authors: Pisupati, Anurag, Deléglise Lagardère, Myléne
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 16.12.2022; MDPI
• Subjects: Carbon; Composite materials; Epoxy resins; Fiber composites; fiber waste; Flax; flax fibers; Glass fibers; Global temperature changes; Hybrid composites; Landfill; Manufacturers; Manufacturing; Mechanical properties; Morphology; Production lines; Shear strength; France; fiber waste; glass fibers; flax fibers; hybrid composites; mechanical properties
• ISSN: 1996-1944; 1996-1944
• DOI: 10.3390/ma15249017

This work sheds light on the first steps towards using glass fiber waste for semi-structural applications. This work aims to improve the properties of random flax fiber composites by incorporating waste glass fibers (WGF) obtained from the fiber production line. The waste glass fibers were incorporated as a core structure between the flax layers to form a hybrid composite. Two routes of manufacturing viz. vacuum infusion and autoclave were used to identify the optimum route to incorporate the WGF in flax fiber composites. The quality of composites was investigated in terms of residual void content and thickness uniformity. Residual void content was identified to be directly proportional to the WGF content in the composites. With the increase in WGF content, the flexural and impact properties were increased by 47% and 117%, respectively, indicating a positive hybridization effect. Furthermore, a global warming potential indicator was identified to be small, indicating the eco-friendliness of these composites.