Mathematical Modeling and Finite Element Analysis of Superplastic Forming of Ti-6Al-4V Alloy in a Stepped Rectangular Die

机译：阶梯矩形模具中Ti-6Al-4V合金的超塑性成型数学建模与有限元分析

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Superplastic forming has become a viable process in manufacturing of aircraft and automobile parts such as compressor blades, window frames and seat structures, turbine disc etc., which require relatively low tooling and assembly cost. In this paper, the attempt was made to analyze the Ti-6Al-4V alloy sheet using a stepped rectangular die by superplastic blow forming technique. This alloy is most suitable material for producing complex shapes using superplastic forming methods. The forming characteristics of thickness distribution, bulge forming time and optimum pressure with and without die entry radius and friction coefficient in a two step rectangular die have been analyzed by the theoretical model and numerical simulation using Finite Element Method (Abaqus).

机译：超塑性成型已成为制造飞机和汽车部件的可行方法，例如压缩机叶片，窗框和座椅结构，涡轮盘等，需要相对低的工具和组装成本。本文通过超塑性吹塑技术，采用阶梯矩形模具来分析Ti-6Al-4V合金板的尝试。该合金是最合适的材料，用于使用超塑性成型方法制造复杂形状。通过使用有限元方法（ABAQUS）的理论模型和数值模拟，分析了厚度分布，凸起形成时间和具有两步矩形管芯中的摩擦系数的厚度分布的形成特性，并且使用有限元方法（ABAQU）分析了两步矩形管芯中的摩擦系数。

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《International Conference on Design and Manufacturing》|2013年||共10页
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作者
M. Balasubramanian; K. Ramanathan; V. S. Senthil Kumar;
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中图分类 TH16-53;
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Finite Element method; Mathematical modeling; Stepped Rectangular; Ti-6Al-4V; Superplastic forming process;

机译：有限元法;数学建模;阶梯式矩形;Ti-6Al-4V;超塑性成型过程;

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1. FINITE ELEMENT ANALYSIS OF SUPERPLASTIC BLOW-FORMING OF Ti-6Al-4V SHEET INTO CLOSED ELLIP-CYLINDRICAL DIE [J] . Chen D.-C., Chen W.-J., Lin J.-Y, International Journal of Simulation Modelling . 2010,第1期

机译：Ti-6Al-4V板在闭合椭圆圆柱模具中超塑性吹塑的有限元分析
2. Advanced Finite Element Analysis and Simulation in Superplastic Forming Process of Stepped Semispherical Die [J] . P. Pradeep, S. Ayyanar, M. Balasubramanian, Journal of Applied Sciences . 2012,第10期

机译：阶梯式半球模超塑性成型过程中的先进有限元分析与仿真
3. Superplastic forming of Ti-4Al-3Mo-1V alloy: flow behavior modelling and finite element simulation [J] . A.O. Mosleh, A.D. Kotov, P. Mestre-Rinn, Procedia Manufacturing . 2019,第186期

机译：Ti-4AL-3MO-1V合金的超塑性成型：流动性能建模和有限元模拟
4. Mathematical Modeling and Finite Element Analysis of Superplastic Forming of Ti-6Al-4V Alloy in a Stepped Rectangular Die [C] . M. Balasubramanian, K. Ramanathan, V. S. Senthil Kumar International Conference on Design and Manufacturing . 2013

机译：阶梯矩形模具中Ti-6Al-4V合金超级塑性成形的数学建模与有限元分析
5. Advanced finite element modeling and stability analysis of the Superplastic Forming process. [D] . Nazzal, Mohammad Ahmad. 2007

机译：超塑性成形过程的高级有限元建模和稳定性分析。
6. Superplasticity of Ti-6Al-4V Titanium Alloy: Microstructure Evolution and Constitutive Modelling [O] . Ahmed O. Mosleh, Anastasia V. Mikhaylovskaya, Anton D. Kotov, 2019

机译：Ti-6Al-4V钛合金的超塑性：组织演变和本构模型
7. Mathematical Modeling and Finite Element Analysis of Superplastic Forming of Ti-6Al-4V Alloy in a Stepped Rectangular Die [O] . Balasubramanian M., Ramanathan K., kumar V.S. Senthil 2013

机译：Ti-6Al-4V合金阶梯矩形模具超塑性成形的数学建模与有限元分析。
8. Implicit-Explicit Time Stepping with Spatial Discontinuous Finite Elements. Modelling, Analysis and Simulation (MAS). [R] . Hundsdorfer, W. H., Jaffre, J. 2000

机译：空间间断有限元的隐式显式时间步长。建模，分析与仿真（mas）。

Mathematical Modeling and Finite Element Analysis of Superplastic Forming of Ti-6Al-4V Alloy in a Stepped Rectangular Die

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