Meshfree Method for Ductile Fracture with Modified Gurson's Model

Recent advances in the modelling of metals encompass modelling of metals structural inhomogeneity, damage, porosity, twinning/untwining and non-local and second order effects. This presentation is focused on modelling the void growth in ductile fractures. The growth and coalescence of microscopic voids are the main mechanisms in ductile fracture of bulk metallic parts. In sheet metals, ductile fracture is preceded by necking during which existing voids do not have significant growth. However, necking is highly sensitive to plastic flow direction which in turn is sensitive to the presence of voids. Also, under biaxial strain loading, the final fracture in the necking region is still controlled by void growth; hence an accurate fracture prediction is crucial for crash simulations. Finally, in super-plastic sheet forming, void growth and coalescence may precede or accompany necking. Therefore, there is as increasing interest in modelling of voids in the sheet metals. As an application, we show how the predictions of some forming limit curves (FLCs) can be affected by accurate simulation of voids growth.

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Methods and Technologies of Parallel Computing for Mathematical Modeling of Stress-Strain State of Constructions Taking into Account Ductile Fracture

Journal of Automation and Information Sciences ◽

10.1615/jautomatinfscien.v46.i11.30 ◽

2014 ◽

Vol 46 (11) ◽

pp. 23-35 ◽

Cited By ~ 6

Author(s):

Elena A. Velikoivanenko ◽

Alexey S. Milenin ◽

Alexander V. Popov ◽

Vladimir A. Sidoruk ◽

Alexander N. Khimich

Keyword(s):

Mathematical Modeling ◽

Parallel Computing ◽

Ductile Fracture ◽

Strain State ◽

Stress Strain ◽

Stress Strain State

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Investigating Applicability of the Meshfree Method to the Structural Analysis of Tires

Tire Science and Technology ◽

10.2346/1945-5852-40.2.60 ◽

2012 ◽

Vol 40 (2) ◽

pp. 60-82

Author(s):

Ken Ishihara ◽

Takehiro Noda ◽

Hiroyuki Sakurai

Keyword(s):

Meshfree Method ◽

Alternative Methods ◽

The Finite Element Method ◽

Tire Industry ◽

Academic Communities ◽

The Past ◽

New Methodologies ◽

Tire Modeling ◽

Point Data ◽

Conducting Research

ABSTRACT In contrast to the finite element method (FEM), which is widely used in the tire industry nowadays, some alternative methods have been proposed by academic communities over the past decade or so. The meshfree method is one of those new methodologies. Originally intended to remove the burden of creating the mesh that is inherent in FEM, the meshfree method relies on the point data rather than the mesh, which makes it much easier to discretize the geometry. In addition to those modeling issues, it has been found that the meshfree method has several advantages over FEM in handling geometrical nonlinearities, continuities, and so forth. In accordance with those emerging possibilities, the authors have been conducting research on the matter. This article describes the results of the authors' preliminary research on the applicability of the meshfree method to tire analyses, which include the theoretical outline, the strategy of tire modeling, numerical results, comparisons with results of FEM, and conclusions.

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