| Description |
1 online resource (319 pages) |
| Contents |
Cover; Half Title; Title Page; Copyright Page; Contents; Preface; About the Author; Chapter 1: Introduction; Part I: Bone; Chapter 2: Bone Structure and Material Properties; 2.1 Bone Structure; 2.2 Material Properties of Bone; References; Chapter 3: Simulation of Nonhomogeneous Bone; 3.1 Building Bone Model from Ct Data; 3.1.1 CT Data; 3.1.2 Finite Element Model; 3.1.3 Calculation of the Average CT Number (HU); 3.1.4 Material Property Assignment; 3.1.5 Discussion; 3.1.6 Summary; 3.2 Interpolation of Bone Material Properties; 3.2.1 Multidimensional Interpolation; 3.2.1.1 RBAS Algorithm |
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3.2.1.2 NNEI Algorithm3.2.1.3 LMUL Algorithm; 3.2.2 Interpolation of Material Properties of the Ankle; 3.2.2.1 Defining Material Properties of Bone Using the RBAS Algorithm; 3.2.2.2 Defining Material Properties of Bone Using the NNEI Algorithm; 3.2.2.3 Defining Material Properties of Bone Using the LMUL Algorithm; 3.2.2.4 Defining Material Properties of Bone Using a Mixed Method; 3.2.3 Discussion; 3.2.4 Summary; References; Chapter 4: Simulation of Anisotropic Bone; 4.1 Anisotropic Material Models; 4.2 Finite Element Model of Femur with Anisotropic Materials |
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4.2.1 Finite Element Model of Femur with Anisotropic Materials4.2.2 Simulation of Mechanical Testing of the Femur; 4.2.3 Discussion; 4.2.4 Summary; References; Chapter 5: Simulation of Crack Growth Using the extended Finite Element Method (XFEM); 5.1 Introduction To XFEM; 5.1.1 Singularity-Based Method; 5.1.2 Phantom-Node Method; 5.1.3 General Process for Performing XFEM Crack-Growth Simulation; 5.2 Simulation of Crack Growth of the Cortical Bone; 5.2.1 Finite Element Model; 5.2.1.1 Geometry and Mesh; 5.2.1.2 Material Properties; 5.2.1.3 Definition of Crack Front |
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5.2.1.4 Local Coordinate Systems5.2.1.5 Loading and Boundary Conditions; 5.2.1.6 Solution Setting; 5.2.2 Results; 5.2.3 Discussion; 5.2.4 Summary; References; Part II: Soft Tissues; Chapter 6: Structure and Material Properties of Soft Tissues; 6.1 Cartilage; 6.1.1 Structure of Cartilage; 6.1.2 Material Properties of Cartilage; 6.2 Ligaments; 6.2.1 Structure of Ligaments; 6.2.2 Material Properties of Ligaments; 6.3 Intervertebral Disc; References; Chapter 7: Nonlinear Behavior of Soft Tissues; 7.1 Hyperelastic Models; 7.2 Finite Element Analysis of the Abdominal Aortic Aneurysm Wall |
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7.2.1 Finite Element Model7.2.1.1 Geometry and Mesh; 7.2.1.2 Material Model; 7.2.1.3 Loading and Boundary Conditions; 7.2.1.4 Solution Setting; 7.2.2 Results; 7.2.3 Discussion; 7.2.4 Summary; References; Chapter 8: Viscoelasticity of Soft Tissues; 8.1 The Maxwell Model; 8.2 Study of PDL Creep; 8.2.1 Finite Element Model; 8.2.1.1 Geometry and Mesh; 8.2.1.2 Material Models; 8.2.1.3 Boundary Conditions; 8.2.1.4 Loading Steps; 8.2.2 Results; 8.2.3 Discussion; 8.2.4 Summary; References; Chapter 9: Fiber Enhancement; 9.1 Standard Fiber Enhancement; 9.1.1 Introduction of Standard Fiber Enhancement |
| Notes |
9.1.2 IVD Model with Fiber Enhancement |
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Print version record |
| Subject |
Biomedical engineering.
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biomedical engineering.
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Biomedical engineering.
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| Form |
Electronic book
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| ISBN |
9780429592157 |
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0429592159 |
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