FEM Simulation and Experimental Validation of Cold Forging Behavior of LM6 Base Metal Matrix Composites

FEM Simulation and Experimental Validation of Cold Forging Behavior of LM6 Base Metal Matrix Composites

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摘要 The present paper examines the deformation behavior of solid cylinders of an aluminium alloy metal matrix composite (MMC) undergoing axial compression in a Universal Testing Machine under dry condition. The composite was pre- pared by the stir casting method from LM6 aluminium alloy using silicon carbide particles (SiC) as reinforcing agent. The effect of weight percentage of silicon carbide on microstructure, hardness and upsetting load is studied. The friction factor at die metal interface is evaluated by ring compression tests and its effect on non-uniform deformation is investi- gated. The experimental results are finally compared with those obtained by FEM simulation. The present paper examines the deformation behavior of solid cylinders of an aluminium alloy metal matrix composite (MMC) undergoing axial compression in a Universal Testing Machine under dry condition. The composite was pre- pared by the stir casting method from LM6 aluminium alloy using silicon carbide particles (SiC) as reinforcing agent. The effect of weight percentage of silicon carbide on microstructure, hardness and upsetting load is studied. The friction factor at die metal interface is evaluated by ring compression tests and its effect on non-uniform deformation is investi- gated. The experimental results are finally compared with those obtained by FEM simulation.

作者 Hillol Joardar Goutam Sutradhar Nitai Sundar Das

机构地区 Department of Mechanical Engineering Department of Mechanical Engineering

出处《Journal of Minerals and Materials Characterization and Engineering》 2012年第10期989-994,共6页 矿物质和材料特性和工程（英文）

关键词 LM6-SiC MMC HARDNESS MICROSTRUCTURE FORGING FEM LM6-SiC MMC Hardness Microstructure Forging FEM

分类号 TG14 [金属学及工艺—金属材料]

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Journal of Minerals and Materials Characterization and Engineering

2012年第10期

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FEM Simulation and Experimental Validation of Cold Forging Behavior of LM6 Base Metal Matrix Composites

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