Material Modeling in Finite Element Analysis 1st Edition by Z Yang ISBN 1000690881 9781000691054
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ISBN 10: 1000690881
ISBN 13: 9781000691054
Author: Z Yang
Finite element analysis has been widely applied in mechanical, civil, and biomedical designs. This new edition provides the readers with comprehensive views of various material models through practical examples, which will help them better understand various materials and build appropriate material models in finite element analysis. Material Modeling in Finite Element Analysis, Second Edition, consists of four main parts: (1) metals, (2) polymers, (3) soils, and (4) modern materials. Each part starts with the structure and function of different materials and then follows the corresponding material models and the temperature and time effects on the material models. The final part focuses on user subroutines such as UserMat and UserHyper. This book presents some specific problems including the metal-forming process, combustion room, Mullins effect of rubber tires, viscoelasticity of liver soft tissues, small punch test, tunnel excavation, slope stability, concrete slump test, orthodontic wire, and piezoelectric microaccelerometer. All modeling files are provided in the appendices of this book. This book would be helpful for graduate students and researchers in the mechanical, civil, and biomedical fields who conduct finite element analysis. This book provides all readers with a comprehensive understanding of modeling various materials.
Material Modeling in Finite Element Analysis 1st Table of contents:
Chapter 1 Introduction
Part 1 METAL
Chapter 2 Structure and Material Properties of Metal
2.1 Structure of Metal
2.2 Elasticity and Plasticity of Metal
Reference
Chapter 3 Some Plastic Material Models of Metals
3.1 Introduction of Plasticity
3.2 Nonlinear Kinematic Hardening
References
Chapter 4 Material Properties as Function of Time
4.1 Viscoplasticity
4.2 Creep
4.3 Discussion of Viscoplasticity and Creep
References
Chapter 5 Influence of Temperature on Material Properties
5.1 Temperature Dependency of Material Properties
5.2 Simulation of Combustion Chamber under Different
Temperatures
References
Chapter 6 Subroutine UserMat
6.1 UserMat Development
6.2 UserMat of Strain-Hardening Material Model
References
Part 2 POLYMERS
Chapter 7 Structure and Features of Polymer
7.1 Structure of Polymer
7.2 Features of Polymer
References
Chapter 8 Hyperelasticity
8.1 Some Widely Used Hyperelastic Models
8.2 Stability Discussion
8.3 Curve-Fitting of Material Parameters from Experimental Data
References
Chapter 9 Viscoelasticity of Polymers
9.1 Viscoelasticity of Polymers
9.2 Shift Functions
References
Chapter 10 Eight-Chain-Based Viscoplasticity Models
10.1 Bergstrom-Boyce Model
10.2 Simulation of Small Punch Test
References
Chapter 11 Mullins Effect
11.1 Introduction of Mullins Effect
11.2 Ogden-Roxburgh Mullins Effect Model
11.3 Simulation of a Rubber Tire with the Mullins Effect
References
Chapter 12 UserHyper for Modeling Hyperelastic Materials
12.1 Introduction of Subroutine UserHyper
12.2 Simulation of Veronda-Westman Model
References
Part 3 SOIL
Chapter 13 Soil Introduction
13.1 Soil Structure
13.2 Soil Parameters
References
Chapter 14 Cam Clay Model
14.1 Introduction of Modified Cam Clay Model
14.2 Modified Cam Clay Model in ANSYS
14.3 Simulation of Soil Excavation
14.4 Simulation of a Tower on the Ground by Modified Cam Clay Model
References
Chapter 15 Drucker-Prager Model
15.1 Introduction of Drucker-Prager Model
15.2 Simulation of Concrete Slump Test
15.3 Study of a Soil-Arch Interaction
References
Chapter 16 Mohr-Coulomb Model
16.1 Introduction of Mohr-Coulomb Model
16.2 Mohr-Coulomb Model in ANSYS
16.3 Concrete Slump Test
16.4 Study of Slope Stability
References
Chapter 17 Jointed Rock Model
17.1 Jointed Rock Model
17.2 Definition of the Jointed Rock Model in ANSYS
17.3 Simulation of Tunnel Excavation
References
Chapter 18 Consolidation of Soils
18.1 Consolidation of Soils
18.2 Modeling Porous Media in ANSYS
18.3 Simulation of Terzaghi’s Problem
18.4 Simulation of Consolidation of Three-Well Zone
References
Part 4 MODERN MATERIALS
Chapter 19 Composite Materials
19.1 Introduction of Composite Materials
19.2 Modeling Composite in ANSYS
19.3 Simulation of Composite Structure in Failure Test
19.4 Simulation of Crack Growth in Single Leg Bending Problem
References
Chapter 20 Functionally Graded Material
20.1 Introduction of Functionally Graded Material
20.2 Material Model of Functionally Graded Material
20.3 Simulation of a Spur Gear with Functionally Graded Materials
References
Chapter 21 Shape Memory Alloys
21.1 Structure of SMA and Various Material Models
21.2 Simulation of Orthodontic Wire
21.3 Simulation of a Vacuum-Tight Shape Memory Flange
References
Chapter 22 Simulation of Piezoelectricity
22.1 Introduction to Piezoelectricity
22.2 Structures and Mechanical Behaviors of Piezoelectric Materials
22.3 Constitutive Equation of Piezoelectricity
22.4 Simulation of Piezoelectric Accelerometer
References
Chapter 23 Nano Materials
23.1 Introduction of Nano
23.2 Determination of Young’s Modulus of Fe Particles
References
Part 5 RETROSPECTIVE
Chapter 24 Retrospective
24.1 Close Association of Material Properties with the Structure
24.2 Significant Influences of Temperature on Material Properties
24.3 Various Materials with Different Solution Controls
24.4 Various Fields with Different Units
24.5 Anisotropic Material with Symmetrical Conditions
24.6 Application of Four Soil Models
24.7 Definition of Material Parameters
24.8 User Subroutine
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Tags: Z Yang, Material Modeling, Element Analysis