Transactions of Materials and Heat Treatment

Title：Moving boundary treatment method for numerical manifold simulation of metal plastic deformation

Authors： Huang Jia′an1 Zhang Zhengrong1 2

Unit： 1. School of Materials and Energy Guangdong University of Technology Guangzhou 510000 China 2. Guangdong Key Laboratory of Metal Forming Processing and Forging Equipment Technology Guangzhou 510006 China

KeyWords： metal plastic deformation numerical manifold method moving boundary gauss integration manifold element

ClassificationCode：TG316

year,vol(issue):pagenumber：2025,50(5):294-300

Abstract：

Based on the numerical manifold method (NMM), the numerical simulation of metal plastic forming process was studied. The basic theory of NMM was introduced, which divided the solution domain by mathematical grid and physical grid, and classified and processed the boundary manifold elements in the deformation process. By tracking the intersection of motion interface and mathematical grid, thirty-two kinds of boundary manifold element types were constructed. Based on the characteristics of NMM approximation function construction and the standard rectangular mathematical covering grid, Gauss integral method was proposed for numerical integration of manifold elements. Combined with the Gauss integral point and their weight coefficient, the integral points and the irregular integral area were mapped and the integral calculation was completed. Different from the finite element method, the partial derivative mapping and Jacobian matrix calculation were not required for NMM, only the coordinate transformation and area mapping were needed to deal with the numerical integration of irregular shape elements. The research results provide a theoretical basis for the application of NMM in the numerical simulation of metal plastic forming.

Funds：

国家自然科学基金面上项目(52175294)

作者简介：黄家安（2000-），男，硕士研究生，E-mail：1162494408@qq.com；通信作者：章争荣（1969-），男，博士，教授，E-mail：zzr@gdut.edu.com

Reference：

［1］陆璐,王照旭,崔红霞.塑性有限元在金属体积成形过程中应用的进展
［J］.材料导报,2016,30(1):106-110.

Lu L, Wang Z X, Cui H X. Progress of application of finite element method in metals massive forming process
［J］. Materials Reports,2016,30(1):106-110.

［2］王继晨，刘飞，鲍益东，等. 基于无网格法的镁合金等温锻造成形模拟分析
［J］. 锻压技术，2023，48（2）：10-15.

Wang J C, Liu F, Bao Y D， et al. Simulation and analysis on isothermal forging for magnesium alloy based on meshless method
［J］. Forging & Stamping Technology，2023，48（2）：10-15.

［3］吴欣,赵国群,管延锦.大变形成形过程刚塑性无网格伽辽金方法
［J］.中国机械工程,2006,17(19):1984-1987.

Wu X, Zhao G Q, Guan Y J. Rigid-plastie meshless galerkin method in large metal deformation analysis
［J］. China Mechanical Engineering,2006,17(19):1984-1987.

［4］张雄,刘岩,马上.无网格法的理论及应用
［J］.力学进展,2009,39(1):1-36.

Zhang X, Liu Y, Ma S. Meshfree methods and their applications
［J］. Advances in Mechanics,2009,39(1):1-36.

［5］张湘伟,章争荣,吕文阁.数值流形方法研究及应用进展
［J］.力学进展,2010,40(1):1-12.

Zhang X W, Zhang Z R, Lyu W G. Advances and perspectives in numerical manifold method and its applications
［J］. Advances in Mechanics,2010,40(1):1-12.

［6］Tan F, Tong D F, Liang J W, et al. Two-dimensional numerical manifold method for heat conduction problems
［J］. Engineering Analysis with Boundary Elements, 2022,137:119-138.

［7］Zhang N, Li X, Jiang Q H, et al. Rotation errors in numerical manifold method and a correction based on large deformation theory
［J］. Frontiers of Structural and Civil Engineering, 2019,13:1036-1053.

［8］Zhou G L, Xu T, Zhu W C, et al. A damage-based numerical manifold approach to crack propagation in rocks
［J］. Engineering Analysis with Boundary Elements, 2020,117:76-88.

［9］Wei W, Jiang Q H. A modified numerical manifold method for simulation of finite deformation problem
［J］. Applied Mathematical Modelling,2017,48:673-687.

［10］Ma G W, An X M, He L. The numerical manifold method: A review
［J］. International Journal of Computational Methods, 2010, 7(1): 1-32.

［11］石根华.Numerical Manifold Method（NMM） and Discontinuous Deformation Analysis（DDA）
［M］. 裴觉民, 译. 北京: 淸华大学出版社, 1997.

Shi G H. Numerical Manifold Method (NMM) and Discontinuous Deformation Analysis (DDA)
［M］. Translated by Pei J M. Beijing: Tsinghua University Press,1997.

［12］Fan H, Huang D R, Wang G. Quadrilateral-area-coordinate-based numerical manifold method accommodating static and dynamic analysis
［J］. Engineering Analysis with Boundary Elements, 2022,134:315-340.

［13］李庆扬,王能超,易大义.数值分析
［M］. 5版. 武汉: 华中科技大学出版社,2018.

Li Q Y, Wang N C, Yi D Y. Numerical Analysis
［M］. 5th Edition. Wuhan: Huazhong University of Science & Technology Press,2018.

Service：

【This site has not yet opened Download Service】【Add Favorite】