An upper bound elemental technique approach to the process design of axisymmetric forging by forward and backward simulation

Adel Alfozan; Jay S. Gunasekera

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An upper bound elemental technique approach to the process design of axisymmetric forging by forward and backward simulation

机译：基于前向和后向仿真的轴对称锻件工艺设计的上限元技术方法

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Upper bound element technique (UBET) is used to simulate axisymmetric forging and to determine the optimum intermediate shapes using backward simulation. The lowest energy rate is the key issue in achieving the optimal intermediate shape as well as the backward simulation of the process. The two simulations (forward and backward) were tested with different profiles of disks and two cases are presented here. The present method was validated using finite element method (FEM) by forward simulation. As results show, this technique improves the capability of the simulation tool and provides results within a short period of time compared to the FEM.

机译：上限元素技术（UBET）用于模拟轴对称锻件，并使用向后模拟来确定最佳的中间形状。最低的能耗是实现最佳中间形状以及过程的向后仿真的关键问题。在不同的磁盘配置文件中测试了两种模拟（向前和向后），此处介绍了两种情况。通过有限元方法（FEM）对本方法进行了正向仿真验证。结果表明，与FEM相比，该技术提高了仿真工具的功能，并在短时间内提供了结果。

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《Journal of Materials Processing Technology》 |2003年第3期|共9页
作者
Adel Alfozan; Jay S. Gunasekera;
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正文语种 eng
中图分类一般性问题;工程材料学;
关键词
Upper bound element technique; Finite element method; Forward and backward simulation; Forging;

机译：上限元技术有限元法前后模拟锻造;

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1. An upper bound elemental technique approach to the process design of axisymmetric forging by forward and backward simulation [J] . Adel Alfozan, Jay S. Gunasekera Journal of Materials Processing Technology . 2003,第3期

机译：基于前向和后向仿真的轴对称锻件工艺设计的上限元技术方法
2. Optimization of axisymmetric open-die micro-forging/extrusion processes: An upper bound approach [J] . Ehsan Ghassemali, Ming-Jen Tan, Anders E. W. Jarfors, International Journal of Mechanical Sciences . 2013,第Null期

机译：轴对称开放模微锻/挤压工艺的优化：上限方法
3. Design of Profile Ring Rolling by Backward Simulation Using Upper Bound Element Technique (UBET) [J] . Adel Alfozan, Jay S. Gunasekera Journal of Manufacturing Processes . 2002,第2期

机译：使用上界元技术（UBET）向后仿真的型材环轧设计
4. Modified Upper Bound Elemental Technique(MUBET)for Preform Design in Closed Die Forging [C] . Mazyad Almohaileb, Jay S.Gunasekera, Bhavin V.Mehta, International Conference on Numerical Methods in Industrial Forming Processes . 2004

机译：用于封闭式锻造的预制件设计的改进的上限元素技术（Mubet）
5. Development and validation of upper bound element technique (UBET) for forward and backward simulation of the ring rolling process. [D] . Alfozan, Adel Khalid. 2003

机译：环锭轧制过程的前向和后向仿真的上限元技术（UBET）的开发和验证。
6. Application of a Prototype Thermoplastic Treatment Line in Order to Design a Thermal Treatment Process of Forgings with the Use of the Heat from the Forging Process [O] . Marek Hawryluk, Zbigniew Gronostajski, Maciej Zwierzchowski, 2020

机译：应用原型热塑性处理线以利用锻造过程中产生的热量设计锻件的热处理过程
7. Friction effects during open-die micro-forging/extrusion processes : An upper bound approach [O] . Ghassemali, Ehsan, Tan, Ming-Jen, Chua, Beng Wah, 2014

机译：开模微锻/挤压过程中的摩擦效应：一种上限方法

An upper bound elemental technique approach to the process design of axisymmetric forging by forward and backward simulation

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