Effect of Reinforcing Particle Shape on the Behavior of Composites Materials
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Date
2021-12-02
Journal Title
Journal ISSN
Volume Title
Publisher
JOURNAL OF NANO- AND ELECTRONIC PHYSICS
Abstract
In this paper, the effect of particle shape on the mechanic behavior of glass particle reinforced composites is evaluated. Small particles adhere strongly to the polymer, which leads to a strong reinforcing effect. When the total contact surface increases, more loads are transferred to the reinforcing particles. In
our previous studies, it has been shown that addition of circular particles with decreasing diameter does
not affect the composite. The objective of this research is to investigate the mechanical behavior of thermoplastic matrix composite nylon 66, reinforced with glass particles, under unidirectional tensile loading using finite element analysis. Numerical results are presented for a variety of particle shapes, including circular, triangular, square, rhombic, pentagonal and hexagonal. The results show that Von Mises stresses
consistently increased as the shape of the reinforcing particles changed from triangular to square, rhombic,
pentagonal, hexagonal and circular in this order.
Description
In this paper, the effect of particle shape on the mechanic behavior of glass particle reinforced composites is evaluated. Small particles adhere strongly to the polymer, which leads to a strong reinforcing effect. When the total contact surface increases, more loads are transferred to the reinforcing particles. In
our previous studies, it has been shown that addition of circular particles with decreasing diameter does
not affect the composite. The objective of this research is to investigate the mechanical behavior of thermoplastic matrix composite nylon 66, reinforced with glass particles, under unidirectional tensile loading using finite element analysis. Numerical results are presented for a variety of particle shapes, including circular, triangular, square, rhombic, pentagonal and hexagonal. The results show that Von Mises stresses
consistently increased as the shape of the reinforcing particles changed from triangular to square, rhombic,
pentagonal, hexagonal and circular in this order.