Mechanical Behavior of Particle Reinforced Thermoplastic Matrix Composites Using Finite Element Modeling

dc.contributor.authorMansouri Khelifa
dc.contributor.authorDjebaili Hamid
dc.contributor.authorBrioua Mourad
dc.date.accessioned2024-02-13T00:01:25Z
dc.date.available2024-02-13T00:01:25Z
dc.date.issued2020-01-12
dc.descriptionParticles are becoming increasingly popular reinforcing elements in products made by injection molding. Particles reinforcement allows the thermoplastic to be processed employing the same methods as those used for unreinforced thermoplastic. Ultrafine particles, whose diameters are comparable to the crystalline regions in the polymer, have a prominent reinforcing effect on the elastic properties of the polymer. Small particles adhere strongly to the polymer, which leads to a strong reinforcing effect. In particle reinforced thermoplastic matrix composites, loads are not directly applied to the particles but are applied to the matrix, and some of the applied loads are transferred to the particles. The process of transfer of load between particles and matrix depends on the strength of the interface. In this work, multiparticle composite model was analyzed under tensile load. The purpose of this work is to analyze the influence of particle diameter (the diameters of 19.61, 26.15, 39.22 and 78.45 m were used) on the Von Mises stress of glass particle reinforced thermoplastic nylon 66 matrix composite using finite element analysis (FEA). The second objective is to analyze the effect of particle packing (square, hexagonal and random arrangement) on nanocomposite behavior.
dc.description.abstractParticles are becoming increasingly popular reinforcing elements in products made by injection molding. Particles reinforcement allows the thermoplastic to be processed employing the same methods as those used for unreinforced thermoplastic. Ultrafine particles, whose diameters are comparable to the crystalline regions in the polymer, have a prominent reinforcing effect on the elastic properties of the polymer. Small particles adhere strongly to the polymer, which leads to a strong reinforcing effect. In particle reinforced thermoplastic matrix composites, loads are not directly applied to the particles but are applied to the matrix, and some of the applied loads are transferred to the particles. The process of transfer of load between particles and matrix depends on the strength of the interface. In this work, multiparticle composite model was analyzed under tensile load. The purpose of this work is to analyze the influence of particle diameter (the diameters of 19.61, 26.15, 39.22 and 78.45 m were used) on the Von Mises stress of glass particle reinforced thermoplastic nylon 66 matrix composite using finite element analysis (FEA). The second objective is to analyze the effect of particle packing (square, hexagonal and random arrangement) on nanocomposite behavior.
dc.identifier.issnDOI: 10.21272/jnep.12(5).05004
dc.identifier.urihttp://dspace.univ-khenchela.dz:4000/handle/123456789/565
dc.language.isoen
dc.publisherJOURNAL OF NANO- AND ELECTRONIC PHYSICS
dc.relation.ispartofseriesVol.12(5)2020
dc.titleMechanical Behavior of Particle Reinforced Thermoplastic Matrix Composites Using Finite Element Modeling
dc.typeArticle
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