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Fabrication of lightweight polymer products with excellent mechanical properties using a novel double-sided in-mold decoration combined with fiber-reinforced microcellular injection molding process

Shengrui Yu, Kai Wang, Lei Xu, Senzhen Song, Jiangen Yang, Han Wen, Huamin Zhou

2024Journal of Materials Research and Technology13 citationsDOIOpen Access PDF

Abstract

This paper introduces a novel molding process known as the double-sided in-mold decoration combined with fiber-reinforced microcellular injection molding (DS-IMD/FR-MIM) process. This process utilizes supercritical fluids to grow a microcellular structure for a lightweight product and adds glass fibers into polymer particles to reinforce mechanical properties. Concurrently, double-sided in-mold decoration (DS-IMD) technique provides a symmetric temperature field for melts during filling stage and high surface quality for parts after cooling. Tensile splines are simulated and tested to examine the impacts of various in-mold decoration methods on the melt temperature, freezing layer fraction, fiber orientation, cellular morphology and distribution, and mechanical properties. Applied splines include undecorated and fiber-reinforced microcellular injection molding (FR-MIM) spline, single-sided in-mold decoration combined with fiber-reinforced microcellular injection molding (SS-IMD/FR-MIM) spline, and DS-IMD/FR-MIM spline. Additionally, a flexural spline is used to test its flexural strength and surface quality. The results show that DS-IMD/FR-MIM process provides slower freezing speed and better foaming effect than FR-MIM process. It also generates more symmetric cellular distribution and more orderly fiber distribution than SS-IMD/FR-MIM process. DS-IMD/FR-MIM splines have high surface quality on decorated surfaces and 10.2 % weight loss. By comparison with FR-MIM and SS-IMD/FR-MIM splines, DS-IMD/FR-MIM splines increase an elongation at break by 24.3 % and 14.8 %, respectively. This paper contributes a feasible approach and theoretical groundwork for the fabrication of lightweight products with excellent mechanical strength and appearance.

Topics & Concepts

Materials scienceComposite materialMoldMolding (decorative)Flexural strengthFiberUltimate tensile strengthRoll formingFabricationPathologyAlternative medicineMedicinePolymer Foaming and CompositesInjection Molding Process and PropertiesCellular and Composite Structures
Fabrication of lightweight polymer products with excellent mechanical properties using a novel double-sided in-mold decoration combined with fiber-reinforced microcellular injection molding process | Litcius