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PREDICTION FOR FORMING LIMIT OF AL2024T3 SHEET BASED ON DAMAGE THEORY USING FINITE ELEMENT METHOD 被引量:1

PREDICTION FOR FORMING LIMIT OF AL2024T3 SHEET BASED ON DAMAGE THEORY USING FINITE ELEMENT METHOD
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摘要 This paper presents the application of anisotropic damage theory to the study of forming limit diagram of A12024T3 aluminum alloy sheet. In the prediction of limiting strains of the aluminum sheet structure, a finite element cell model has been constructed. The cell model consists of two phases, the aluminum alloy matrix and the intermetallic cluster. The material behavior of the aluminum alloy matrix is described with a fully coupled elasto-plastic damage constitutive equation. The intermetallic cluster is assumed to be elastic and brittle. By varying the stretching ratio, the limiting strains of the sheet under biaxial stretching have been predicted by using the necking criterion proposed. The prediction is in good agreement with the experimental findings. Moreover, the finite element cell model can provide information for understanding the microscopic damage mechanism of the aluminum alloy. Over-estimation of the limit strains may result if the effect of material damage is ignored in the sheet metal forming study. This paper presents the application of anisotropic damage theory to the study of forming limit diagram of A12024T3 aluminum alloy sheet. In the prediction of limiting strains of the aluminum sheet structure, a finite element cell model has been constructed. The cell model consists of two phases, the aluminum alloy matrix and the intermetallic cluster. The material behavior of the aluminum alloy matrix is described with a fully coupled elasto-plastic damage constitutive equation. The intermetallic cluster is assumed to be elastic and brittle. By varying the stretching ratio, the limiting strains of the sheet under biaxial stretching have been predicted by using the necking criterion proposed. The prediction is in good agreement with the experimental findings. Moreover, the finite element cell model can provide information for understanding the microscopic damage mechanism of the aluminum alloy. Over-estimation of the limit strains may result if the effect of material damage is ignored in the sheet metal forming study.
作者 Tang C.Y. Fan Jianping Tsui C.P.
机构地区 Department of Industrial and Systems Engineering School of Civil Engineering and Mechanics
出处 《Acta Mechanica Solida Sinica》 SCIE EI 2006年第2期174-180,共7页 固体力学学报(英文版)
基金 Project supported by the Research Committee of The Hong Kong Polytechnic University (No.G-YX34).
关键词 forming limit diagram (FLD) anisotropic damage finite element method (FEM) limit strain localized necking elasto-plastic deformation forming limit diagram (FLD), anisotropic damage, finite element method (FEM) limit strain, localized necking, elasto-plastic deformation
分类号 O34 [理学—固体力学]
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参考文献2

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  • 2Morris Azrin,Walter A. Backofen.The deformation and failure of a biaxially stretched sheet[J].Metallurgical Transactions.1970(10)

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  • 1樊建平,邓泽贤,崔智邦.用损伤理论方法预测铝合金薄板成型极限[J].固体力学学报,2006,27(2):109-115. 被引量:4
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  • 3Mullins M. Molecular dynamics simulation of propagating cracks[J]. Scripta Metallurgica, 1982,16(6) : 663-666.
  • 4Bulatov V V,Wolfer W G,Kumar M. Shear impossibility: comments on "Void growth by dislocation emission" and "Void growth in metals : Atomistie calculations" [J]. Scripta Materialia, 2010,63 (1) : 144 147.
  • 5Nishimura K, Miyazaki N. Molecular dynamics simulation of crack growth under cyclic loading[J]. Computational Materials Science, 2004,31 (3/4) : 269-278.
  • 6Monnet G. Mechanical and energetieal analysis of molecular dynamics simulations of dislocatiowdefect interactions[J]. Acta Materialia, 2007,55(15) :5081-5088.
  • 7Liu F,Fu Q,Chen C,et al. An elasto-plastic damage constitutive theory and its prediction of evolution of subsequent yield surfaces and elastic constants[J]. International Journal of Plasticity,2011,27(9): 1355 -1383.
  • 8Han C S,Gao H J, Huang Y G. Mechanism-based strain gradient crystal plasticity-I. Theory[J]. Journal of the Mechanics and Physics of Solids,2005,53(5):1188-1203.
  • 9Sehmidt P,Edlund U. A finite element method for failure analysis of adhesively bonded structures[J]. International Jour- nal of Adhesion and Adhesives, 2010,30 (8) : 665-681.
  • 10Lemaitre J. A continuous damage mechanics model for ductile fracture[J]. Journal of Engineering Materials and Technolo gy,1985,107:83- 89.

引证文献1

Acta Mechanica Solida Sinica
2006年 第2期

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