Introduction To The Explicit Finite Element Method For Nonlinear Transient Dynamics
商品資訊
ISBN13:9780470572375
出版社:John Wiley & Sons Inc
作者:Wu
出版日:2012/08/29
裝訂/頁數:精裝/352頁
商品簡介
Each chapter contains a list of carefully chosen references intended to help readers to further explore the related subjects.
The authors—who have extensive experience in theoretical research, software development and industrial engineering applications—have successfully provided a book for engineers and researchers who need information about the explicit finite element method in a straightforward and streamlined manner.
Additional reading and referencing of the fundamentals on finite element concepts or solution methods for static analysis will not be needed or required. Fundamental theories and methods are presented with rich information about recent developments not yet published in other finite element books.
作者簡介
SHEN R. WU, PhD, has teaching and research interest in shell theory, the finite element method, the variational principle, and contact problems. In addition, he has extensive experience in the explicit finite element method, including the convergence theory, the diagonal mass matrix, the Reisner-Mindlin element, contact algorithms, material models, software development, and its applications.
LEI GU, PhD, has teaching and research interest in fracture mechanics, the finite element method, the mesh-free method, the optimization method, with extensive experience in the explicit finite element method such as software development, the diagonal mass matrix, robustness analysis, and its practical applications.
目次
1.1 Era of Simulation and Computer Aided Engineering
1.2 Preliminaries
2 Framework of Explicit Finite Element Method for Nonlinear Transient Dynamics
2.1 Transient Structural Dynamics
2.2 Variational Principles for Transient Dynamics
2.3 Finite Element Equations and the Explicit Procedures
2.4 Main Features of the Explicit Finite Element Method
2.5 Assessment of Explicit Finite Element Method
PART 2 Element Technology
3 Four-Node Shell Element (Reissner-Mindlin Plate Theory)
3.1 Fundamentals of Plates and Shells
3.2 Linear Theory of R-M Plate
3.3 Interpolation for Four-Node R-M Plate Element
3.4 Reduced Integration and Selective Reduced Integration
3.5 Perturbation Hourglass Control - Belytschko-Tsay (B-T) Element
3.6 Physical Hourglass Control - Belytschko-Leviathan (B-L) (QPH) Element
3.7 Shear Projection Method - Bathe-Dvorkin (B-D) Element
3.8 Assessment of Four-Node R-M Plate Element
4 Three-Node Shell Element (Reissner-Mindlin Plate Theory)
4.1 Fundamentals of a Three-Node C0 Element
4.2 Decomposition Method for C0 Triangular Element with One Point Integration
4.3 Discrete Kirchhoff Triangular (DKT) Element
4.4 Assessment of Three-Node R-M Plate Element
5 Eight-Node Solid Element
5.1 Trilinear Interpolation for the Eight-Node Hexahedron Element
5.2 Locking Issues of the Eight-Node Solid Element
5.3 One- Point Reduced Integration and the Perturbed Hourglass Control
5.4 Assumed Strain Method and Selective / Reduced Integration
5.5 Assumed Deviatoric Strain
5.6 An Enhanced Assumed Strain Method
5.7 Taylor Expansion of Assumed Strain about the Element Center
5.8 Evaluation of Eight-Node Solid Element
6 Two-Node Element
6.1 Truss and Rod Element
6.2 Timoshenko Beam Element
6.3 Spring Element
6.4 Spot Weld Element
PART 3 Material Models
7 Material Model of Plasticity
7.1 Fundamentals of Plasticity
7.2 Constitutive Equations
7.3 Software Implementation
7.4 Evaluation of Shell Elements with Plastic Deformation
8 Continuum Mechanics Model of Ductile Damage
8.1 Concept of Damage Mechanics
8.2 Gurson’s Model
8.3 Chow's Isotropic Model of Continuum Damage Mechanics
8.4 Chow's Anisotropic Model of Continuum Damage Mechanics
9 Models of Nonlinear Materials
9.1 Vicoelasticity
9.2 Polymer and Engineering Plastics
9.3 Rubber
9.4 Foam
9.5 Honeycomb
9.6 Laminated Glazing
PART 4 Contact and Constraint Conditions
10 Three-Dimensional Surface Contact
10.1 Examples of Contact Problems
10.2 Description of Contact Conditions
10.3 Variational Principle for the Dynamic Contact Problem
10.4 Penalty Method and the Regularization of Variational Inequality
11 Numerical Procedures for Three-Dimensional Surface Contact
11.1 A Contact Algorithm with Slave Node Searching Master Segment
11.2 A Contact Algorithm with Master Segment Searching Slave Node
11.3 Method of Contact Territory and Defense Node
11.4 Pin- Ball Contact Algorithm
11.5 Edge (Line Segment) Contact
11.6 Evaluation of Contact Algorithm with Penalty Method
12 Kinematic Constraint Conditions
12.1 Rigid Wall
12.2 Rigid Body
12.3 Explicit Finite Element Procedure with Constraint Conditions
12.4 Application Examples with Constraint Conditions
主題書展
更多書展今日66折
您曾經瀏覽過的商品
購物須知
外文書商品之書封,為出版社提供之樣本。實際出貨商品,以出版社所提供之現有版本為主。部份書籍,因出版社供應狀況特殊,匯率將依實際狀況做調整。
無庫存之商品,在您完成訂單程序之後,將以空運的方式為你下單調貨。為了縮短等待的時間,建議您將外文書與其他商品分開下單,以獲得最快的取貨速度,平均調貨時間為1~2個月。
為了保護您的權益,「三民網路書店」提供會員七日商品鑑賞期(收到商品為起始日)。
若要辦理退貨,請在商品鑑賞期內寄回,且商品必須是全新狀態與完整包裝(商品、附件、發票、隨貨贈品等)否則恕不接受退貨。