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Machinability of ZTC4 Titanium Alloy Analysis Using Finite Element Simulation and Milling Experiment

机译：ZTC4钛合金的可加工性的有限元模拟和铣削实验分析

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In this paper Finite element methods (FEM) and cutting experiment were used to investigate the machinability of titanium alloy ZTC4 (cast Ti6Al4V). Machinability was evaluated as cutting force, temperature, and surface roughness. Two-dimension (2D) and three-dimension (3D) machining process FEM models were established. Material constitutive applied Johnson-Cook model synthesizing elastic and plastic deformation. Chip separated criteria adopted arbitrary Lagrangian Euler (ALE) algorithm. Heat generation source included the rake face chip flow under conditions of seizure and chip/tool friction, clearance face tool/workpiece friction. 3D discrete milling tool was modeled and the milling process was simulated. The ZTC4 milling experiments were designed and carried out with same cutting conditions of the 3D FEM simulation. The results of FEM simulation and the experiment were compared and analysed. The influences of the machining variables to the machinability of ZTC4 were discussed.

机译：本文采用有限元方法（FEM）和切削实验研究了钛合金ZTC4（铸造Ti6Al4V）的切削性能。可加工性被评估为切削力，温度和表面粗糙度。建立了二维（2D）和三维（3D）加工过程的有限元模型。材料本构应用了Johnson-Cook模型，合成了弹性和塑性变形。芯片分离标准采用任意拉格朗日欧拉（ALE）算法。发热源包括咬合和切屑/刀具摩擦，间隙面刀具/工件摩擦条件下的前刀面切屑流。对3D离散铣刀建模，并模拟了铣削过程。设计ZTC4铣削实验，并在与3D FEM模拟相同的切削条件下进行。对有限元模拟结果和实验结果进行了比较和分析。讨论了加工变量对ZTC4切削性能的影响。

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《ICAMCS 2011;International conference on advanced materials and computer science 》|2012年|p.633-638|共6页
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Liu Changyi; Tang Zhian; Yang Sheng; Liu Wenwen; Lu Yuandong;
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中图分类工程材料一般性问题 ; 计算技术、计算机技术 ;
关键词
titanium alloy; machinalility; milling; FEM; experiment;

机译：钛合金机械性铣削有限元实验;

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1. Prediction of machining induced residual stresses in turning of titanium and nickel based alloys with experiments and finite element simulations [J] . T. Ozel, D. Ulutan CIRP Annals . 2012 ,第1期

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2. Experiments and finite element simulations on micro-milling of Ti-6Al-4V alloy with uncoated and cBN coated micro-tools [J] . T. Ozel, T. Thepsonthi, D. Ulutan, CIRP Annals . 2011 ,第1期

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3. Determination of tool friction in presence of flank wear and stress distribution based validation using finite element simulations in machining of titanium and nickel based alloys [J] . Durul Ulutan, Tugrul Ozel Journal of Materials Processing Technology . 2013 ,第12期

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4. 3-D Finite Element Simulation Analysis of Milling Titanium Alloy Using Different Cutting Edge Radius [C] . Sui Xiulin, Zhang Shiguang, Guan Yang, International Conference on Intelligent Systems Design and Engineering Applications . 2015

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5. Finite element simulation of chip segmentation in machining a titanium 6-aluminum - 4-vanadium alloy. [D] . Syed, Kareem. 2004

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Machinability of ZTC4 Titanium Alloy Analysis Using Finite Element Simulation and Milling Experiment

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