PARTITION OF UNITY METHODS
Master the latest tool in computational mechanics with this brand-new resource from distinguished leaders in the field
While it is the number one tool for computer aided design and engineering, the finite element method (FEM) has difficulties with discontinuities, singularities, and moving boundaries. Partition of unity methods addresses these challenges and is now increasingly implemented in commercially available software. Partition of Unity Methods delivers a detailed overview of its fundamentals, in particular the extended finite element method for applications in solving moving boundary problems. The distinguished academics and authors introduce the XFEM as a natural extension of the traditional finite element method (FEM), through straightforward one-dimensional examples which form the basis for the subsequent introduction of higher dimensional problems. This book allows readers to fully understand and utilize XFEM just as it becomes ever more crucial to industry practice.
Partition of Unity Methods explores all essential topics on this key new technology, including:
* Coverage of the difficulties faced by the finite element method and the impetus behind the development of XFEM
* The basics of the finite element method, with discussions of finite element formulation of linear elasticity and the calculation of the force vector
* An introduction to the fundamentals of enrichment
* A revisitation of the partition of unity enrichment
* A description of the geometry of enrichment features, with discussions of level sets for stationary interfaces
* Application of XFEM to bio-film, gradient theories, and three dimensional crack propagation
Perfect for researchers and postdoctoral candidates working in the field of computational mechanics, Partition of Unity Methods also has a place in the libraries of senior undergraduate and graduate students working in the field. Finite element and CFD analysts and developers in private industry will also greatly benefit from this book.
İçerik tablosu
List of Contributors xi
Preface xiii
Acknowledgments xv
1 Introduction 1
1.1 The Finite Element Method 2
1.2 Suitability of the Finite Element Method 9
1.3 Some Limitations of the FEM 11
1.4 The Idea of Enrichment 16
1.5 Conclusions 19
2 A Step-by-Step Introduction to Enrichment 23
2.1 History of Enrichment for Singularities and Localized Gradients 25
2.2 Weak Discontinuities for One-dimensional Problems 38
2.3 Strong Discontinuities for One-dimensional Problem 58
2.4 Conclusions 61
3 Partition of Unity Revisited 67
3.1 Completeness, Consistency, and Reproducing Conditions 67
3.2 Partition of Unity 68
3.3 Enrichment 69
3.4 Numerical Examples 86
3.5 Conclusions 95
4 Advanced Topics 99
4.1 Size of the Enrichment Zone 99
4.2 Numerical Integration 100
4.3 Blending Elements and Corrections 108
4.4 Preconditioning Techniques 116
5 Applications 125
5.1 Linear Elastic Fracture in Two Dimensions with XFEM 125
5.2 Numerical Enrichment for Anisotropic Linear Elastic Fracture Mechanics 130
5.3 Creep and Crack Growth in Polycrystals 133
5.4 Fatigue Crack Growth Simulations 138
5.5 Rectangular Plate with an Inclined Crack Subjected to Thermo-Mechanical Loading 140
6 Recovery-Based Error Estimation and Bounding in XFEM 145
6.1 Introduction 145
6.2 Error Estimation in the Energy Norm. The ZZ Error Estimator 147
6.3 Recovery-based Error Estimation in XFEM 151
6.4 Recovery Techniques in Error Bounding. Practical Error Bounds. 174
6.5 Error Estimation in Quantities of Interest 179
7 Phi-FEM: An Efficient Simulation Tool Using Simple Meshes for Problems in Structure Mechanics and Heat Transfer 191
7.1 Introduction 191
7.2 Linear Elasticity 194
7.3 Linear Elasticity with Multiple Materials 204
7.4 Linear Elasticity with Cracks 208
7.5 Heat Equation 212
7.6 Conclusions and Perspectives 214
8 e Xtended Boundary Element Method (XBEM) for Fracture Mechanics and Wave Problems 217
8.1 Introduction 217
8.2 Conventional BEM Formulation 218
8.3 Shortcomings of the Conventional Formulations 226
8.4 Partition of Unity BEM Formulation 228
8.5 XBEM for Accurate Fracture Analysis 228
8.6 XBEM for Short Wave Simulation 235
8.7 Conditioning and its Control 243
8.8 Conclusions 245
9 Combined Extended Finite Element and Level Set Method (XFE-LSM) for Free Boundary Problems 249
9.1 Motivation 249
9.2 The Level Set Method 250
9.3 Biofilm Evolution 256
9.4 Conclusion 269
10 XFEM for 3D Fracture Simulation 273
10.1 Introduction 273
10.2 Governing Equations 274
10.3 XFEM Enrichment Approximation 275
10.4 Vector Level Set 280
10.5 Computation of Stress Intensity Factor 282
10.6 Numerical Simulations 288
10.7 Summary 300
11 XFEM Modeling of Cracked Elastic-Plastic Solids 303
11.1 Introduction 303
11.2 Conventional von Mises Plasticity 303
11.3 Strain Gradient Plasticity 312
11.4 Conclusions 323
12 An Introduction to Multiscale analysis with XFEM 329
12.1 Introduction 329
12.2 Molecular Statics 330
12.3 Hierarchical Multiscale Models of Elastic Behavior — The Cauchy-Born Rule 336
12.4 Current Multiscale Analysis — The Bridging Domain Method 338
12.5 The e Xtended Bridging Domain Method 340
References 344
Index 345
Yazar hakkında
Stéphane P. A. Bordas is a Professor in Computational Mechanics and earned his Ph D from Northwestern University, USA, in 2004. He has published over 200 papers in unfitted simulation of free boundary problems and data driven modelling of complex systems. He has supervised over 30 Ph D students and is Editor- in-Chief of Advances in Applied Mechanics.
Alexander Menk is employed by Bosch Gmb H. He is a Ph D graduate from Glasgow University, UK, supervised by Prof. Bordas. His contributions range from automatic numerically determined enrichment to preconditioners for extended finite element methods for fracture.
Sundararajan Natarajan has been a Professor of Computational Mechanics since 2014 and earned his Ph D from Cardiff University, UK, supervised by Prof. Bordas and Prof. Kerfriden. He has made strong contributions to a number of methods on unfitted methods for free boundary problems, in particular on numerical integration and strain smoothing.
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