Description |
1 online resource (viii, 187 pages) : illustrations (some color) |
Series |
Lecture Notes in Applied and Computational Mechanics, 1613-7736 ; volume 74 |
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Lecture notes in applied and computational mechanics ; v. 74.
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Contents |
Preface; Contents; RVE Procedure for Estimating the Elastic Properties of Inhomogeneous Microstructures Such as Bone Tissue; 1 Introduction; 2 Material and Method; 2.1 Generation of Stochastic RVE; 2.2 Continuum Mechanics Approach; 2.3 Homogenization Approach; 2.4 Window Size and Boundary Conditions; 2.5 Homogenized Anisotropy; 2.6 Effective Isotropy; 3 Results; 3.1 Monte-Carlo Simulation; 3.2 RVE Size and Boundary Conditions; 3.3 Analysis of Stochastic Microstructures; 4 Discussion; References |
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A Gradient-Enhanced Continuum Damage Model for Residually Stressed Fibre-Reinforced Materials at Finite Strains1 Introduction; 2 Gradient Enhancement of a Continuum Damage Formulation; 2.1 Basic Kinematics; 2.2 General Gradient-Enhanced Format of the Free Energy; 2.3 Total Potential Energy; 2.4 Variational Form; 3 Constitutive Relations; 3.1 Hyperelastic Part of the Free Energy; 3.2 Gradient-Enhanced Part of the Free Energy; 3.3 Gradient-Enhanced Damage Model; 4 Finite Element Discretisation; 4.1 Discretisation; 4.2 Linearisation; 5 Residual Stresses; 6 Numerical Examples |
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6.1 Reproduction of the Opening Angle Experiment6.2 Inflation of the Perturbed Tube; 7 Summary; References; A Mechanically Stimulated Fracture Healing Model Using a Finite Element Framework; 1 Introduction; 2 Mathematical Fracture Healing Model; 2.1 Mechanical Stimulation; 3 Methods; 3.1 Simulation; 4 Results; 4.1 Parameter Study; 5 Discussion; References; The Customized Artificial Hip Cup: Design and Manufacturing of an Innovative Prosthesis; 1 Introduction; 2 Bone Remodelling; 3 Manufacturing Concept; 3.1 Comparative Simulations; 3.2 High Pressure Sheet Metal Forming |
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4 Derivation of the Universal Prosthesis Geometry4.1 General Design Chain; 4.2 Preliminary Investigation; 4.3 Agglomerative Clustering; 5 Outlook; References; On the Role of Phase Change in Modelling Drug-Eluting Stents; 1 Introduction; 2 A Two-Layer Model for Drug Elution; 2.1 The Two-Phase Coating Model; 2.2 The Two-Phase Wall Model; 2.3 Physiological Parameters; 2.4 Numerical Simulation; 3 Results and Discussion; References; Development of Magnesium Alloy Scaffolds to Support Biological Myocardial Grafts: A Finite Element Investigation; 1 Introduction |
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2 Simulation of Flat and Preformed Scaffolds2.1 Finite Element Modeling; 2.2 Modeling Results; 3 Developing of New Scaffold Shapes; 3.1 Improving Scaffold Shapes and Introducing New Designs; 3.2 Results for Shape Improvements and New Designs; 4 Summary and Discussion; 5 Conclusion; References; Finite Element Analysis of Transcatheter Aortic Valve Implantation in the Presence of Aortic Leaflet Calcifications; 1 Introduction; 2 Methods; 2.1 Aortic Root Models Definition and Dynamics; 2.2 TAV Simulations; 3 Results; 3.1 Dynamics of the Aortic Root Models; 3.2 TAV Simulations; 4 Discussion |
Summary |
During the last years computational methods lead to new approaches that can be applied within medical practice. Based on the tremendous advances in medical imaging and high-performance computing, virtual testing is able to help in medical decision processes or implant designs. Current challenges in medicine and engineering are related to the application of computational methods to clinical medicine and the study of biological systems at different scales. Additionally manufacturers will be able to use computational tools and methods to predict the performance of their medical devices in virtu |
Analysis |
engineering |
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biomedische techniek |
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biomedical engineering |
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mechanica |
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mechanics |
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materialen |
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materials |
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gezondheid |
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health |
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informatica |
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informatics |
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Engineering (General) |
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Techniek (algemeen) |
Notes |
Online resource; title from PDF title page (SpringerLink, viewed December 17, 2014) |
Subject |
Medicine -- Computer simulation
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Biomedical materials -- Computer simulation
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Medical technology -- Computer simulation
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Biomedical engineering.
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Medical equipment & techniques.
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Mechanics of solids.
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MEDICAL -- Biotechnology.
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TECHNOLOGY & ENGINEERING -- Biomedical.
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Medicine -- Computer simulation
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Form |
Electronic book
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Author |
Lenarz, Thomas, editor.
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Wriggers, P., editor.
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ISBN |
9783319109817 |
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3319109812 |
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3319109804 |
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9783319109800 |
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