Finite Element Modeling and Simulation towards Metallic Microstructure of Titanium Alloy Based on Abaqus

Hao Yan Wang; Yue Feng Li; Guang Lin Wang

doi:10.4028/www.scientific.net/KEM.667.292

Paper Titles

Dynamic Porosity of 3D Network SiC Ceramic as the Shock-Damping and Acoustic-Absorbing Material for Ultra-Precise Machine Laying
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Electrical Contact Property of AuNi9/AuCuAgZn Sheet Tribo-Couple
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Electrochemical Characteristics of the Amorphous-Nanocrystal Ni–Mo Cathodes in Sodium Hydroxide Solution
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Experimental and Modelling of Constitutive Equation of Polycarbonate Material
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Finite Element Modeling and Simulation towards Metallic Microstructure of Titanium Alloy Based on Abaqus
p.292

Infulence of Chemical Composition and Metallographic Structure to Dimagnetic Stainless Steel
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Mixing Y89 Influence on Mechanical Properties of Casting Mg17Al12
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Pyrolysis Kinetics of PA66/CB
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Study on Characteristics of Green Parts of Birch Flour/Polyester Composite by Selective Laser Sintering
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Finite Element Modeling and Simulation towards Metallic Microstructure of Titanium Alloy Based on Abaqus

Abstract:

In this paper a new kind of finite element analysis model towards metallic microstructure of titanium alloy is established based on a common metallic microstructure picture. By the simulation of tensile test on this new kind of FEA model performed by finite element analysis software Abaqus, the tensile curve in the state of simulation is obtained. Meanwhile, in order to verify the accuracy of the simulation results, a series of tensile tests are designed and performed and the tensile curves under experimental conditions are obtained. Comparing the experimental results with the simulation results, the conclusion can be verified that the new microstructure FEA model can illustrate the metallic microstructure very well. And this model provides a new perspective to study the mechanical properties of metallic materials.