Presentation is loading. Please wait.

Presentation is loading. Please wait.

APPLICATION OF THE GENERAL ALGORITHM FOR 3-D DEFORMATION OF THE GURSON ELASTIC-PLASTIC MATERIAL TO SMALL AND LARGE STRAIN SHELL CONDITIONS MILOS.

Published byRuby Baldwin Modified over 6 years ago

Similar presentations

Presentation on theme: "APPLICATION OF THE GENERAL ALGORITHM FOR 3-D DEFORMATION OF THE GURSON ELASTIC-PLASTIC MATERIAL TO SMALL AND LARGE STRAIN SHELL CONDITIONS MILOS."— Presentation transcript:

1 APPLICATION OF THE GENERAL ALGORITHM FOR 3-D DEFORMATION OF THE GURSON ELASTIC-PLASTIC MATERIAL TO SMALL AND LARGE STRAIN SHELL CONDITIONS MILOS KOJIC, Ph. D., Professor, Faculty of Mechanical Engineering, University of Kragujevac Senior Research Scientist, Harvard University IVO VLASTELICA, Ph. D., Professor, High Technical School, Cacak MIROSLAV ZIVKOVIC, Ph. D., Associate Professor, Faculty of Mechanical Engineering, University of Kragujevac Ulica Sestre Janjic, Kragujevac, Serbia

2 IMLICIT STRESS INTEGRATION FOR METAL PLASTICITY MODELS. 1
IMLICIT STRESS INTEGRATION FOR METAL PLASTICITY MODELS Von Mises Model Gurson Model

3 Von Mises Model Yield condition Stress integration

4 Gurson Model Yield condition

5 Rate of change of porosity

6 SHELL CONDITIONS Geometry and basic kinematics of shell finite element

7 STRESS INTEGRATION PROCEDURE Increments of plastic strains and porosity

8 Basic equations to be satisfied at end of time step Equivalence of plastic work Yield condition

9 Deviatoric stresses and porosity at end of time step

10 Plasticity calculations
, Initial values Trial elastic state If Plasticity calculations a) Iteration on b) Iteration on Equation (25) Next time step Update the variables and go to step 1 Table 1 Computational steps for stress integration

11 CONSISTENT TANGENT ELASTIC-PLASTIC MATRIX

12 EXTENSION TO LARGE STRAINS

13 EXAMPLES 1. Necking of a thin sheet

14

15 2. Plactic bulding of a circular plate under pressure
R=24 mm, =1.00 mm E=68 Gpa , , =0.3, q1=q3=1.5; q2=1; fo=0.002

16

17 3. Tension of plate with hole
E=201 GPa; n=0.3 q1=q3=1.5; q2=1; f0=0.002 L=120 mm B= 20 mm d=10 mm

18

19 CONCLUSIONS AN IMPLICIT STRESS INTEGRATION PROCEDURE, BASED ON THE GOVERNING PARAMETER METHOD (GPM), IS DEVELOPED FOR GURSON MATERIAL MODEL EXTENSION TO LARGE STRAIN CONDITIONS IS PRESENTED THE PROCEDURE IS IMPLEMENTED INTO FE PROGRAM PAK, IN SHELL FINITE ELEMENTS. THE PROCEDURE AND THE DEVELOPED SOFTWARE ARE SUITABLE FOR GENERAL ENGINEERING APPLICATIONS.

Download ppt "APPLICATION OF THE GENERAL ALGORITHM FOR 3-D DEFORMATION OF THE GURSON ELASTIC-PLASTIC MATERIAL TO SMALL AND LARGE STRAIN SHELL CONDITIONS MILOS."

Similar presentations

1.033/1.57 Mechanics of Material Systems (Mechanics and Durability of Solids I) Franz-Josef Ulm Lecture: MWF1 // Recitation: F 3:00-4:30 1.033/1.57: Mechanics.

1.033/1.57 Mechanics of Material Systems (Mechanics and Durability of Solids I) Franz-Josef Ulm Lecture: MWF1 // Recitation: F 3:00-4: /1.57: Mechanics.
Evolutionary Structural Optimisation

Evolutionary Structural Optimisation
Finite element method Among the up-to-date methods of stress state analysis, the finite element method (abbreviated as FEM below, or often as FEA for analyses.

Finite element method Among the up-to-date methods of stress state analysis, the finite element method (abbreviated as FEM below, or often as FEA for analyses.
A. Mellal & Ph. Bellwald www.GeoMod.ch Implementation of a constitutive law in Z_Soil Z_Soil Day, 27 August 2007, Lausanne, Switzerland Aïssa Mellal, GeoMod.

A. Mellal & Ph. Bellwald Implementation of a constitutive law in Z_Soil Z_Soil Day, 27 August 2007, Lausanne, Switzerland Aïssa Mellal, GeoMod.
Mechanics for dent/deformation removal Henry Tan Tuesday, 10/2/09.

Mechanics for dent/deformation removal Henry Tan Tuesday, 10/2/09.
Constitutive models Part 2 Elastoplastic

Constitutive models Part 2 Elastoplastic
Validation of the plasticity models introduction of hardening laws

Validation of the plasticity models introduction of hardening laws
Modeling of Neo-Hookean Materials using FEM

Modeling of Neo-Hookean Materials using FEM
Plasticity Jake Blanchard Spring 2008. Analysis of Plastic Behavior Plastic deformation in metals is an inherently nonlinear process Studying it in ANSYS.

Plasticity Jake Blanchard Spring Analysis of Plastic Behavior Plastic deformation in metals is an inherently nonlinear process Studying it in ANSYS.
LOCALIZATION OF SEDIMENTARY ROCKS DURING DUCTILE FOLDING PROCESSES Pablo F. Sanz and Ronaldo I. Borja Department of Civil and Environmental Engineering.

LOCALIZATION OF SEDIMENTARY ROCKS DURING DUCTILE FOLDING PROCESSES Pablo F. Sanz and Ronaldo I. Borja Department of Civil and Environmental Engineering.
1/20 The virtual fields method for elasto- plastic behaviour Dr. Stéphane AVRIL.

1/20 The virtual fields method for elasto- plastic behaviour Dr. Stéphane AVRIL.
MASTERS PROJECT FALL 2014 DAN FLAVIN 29 SEPTEMBER 2014 1903 Springfield Rifle Bolt Analysis.

MASTERS PROJECT FALL 2014 DAN FLAVIN 29 SEPTEMBER Springfield Rifle Bolt Analysis.
LECTURE SERIES on STRUCTURAL OPTIMIZATION Thanh X. Nguyen Structural Mechanics Division National University of Civil Engineering

LECTURE SERIES on STRUCTURAL OPTIMIZATION Thanh X. Nguyen Structural Mechanics Division National University of Civil Engineering
ES 246 Project: Effective Properties of Planar Composites under Plastic Deformation.

ES 246 Project: Effective Properties of Planar Composites under Plastic Deformation.
Dr Martin Muscat Department of Mechanical Engineering

Dr Martin Muscat Department of Mechanical Engineering
Chapter 17 Design Analysis using Inventor Stress Analysis Module

Chapter 17 Design Analysis using Inventor Stress Analysis Module
Prediction of Load-Displacement Curve for Weld-Bonded Stainless Steel Using Finite Element Method Essam Al-Bahkali Jonny Herwan Department of Mechanical.

Prediction of Load-Displacement Curve for Weld-Bonded Stainless Steel Using Finite Element Method Essam Al-Bahkali Jonny Herwan Department of Mechanical.
2D Analyses Mesh Refinement Structural Mechanics Displacement-based Formulations.

2D Analyses Mesh Refinement Structural Mechanics Displacement-based Formulations.
The problem to be solved is specified in a) the physical domain and b) the discretized domain used by FEA Governing principle law :

The problem to be solved is specified in a) the physical domain and b) the discretized domain used by FEA Governing principle law :
Constraining and size effects in lead-free solder joints

Constraining and size effects in lead-free solder joints

Similar presentations

Ads by Google