Finite element analysis for biomedical engineering applications
著者
書誌事項
Finite element analysis for biomedical engineering applications
CRC Press, c2019
- : hardback
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注記
Includes bibliographical references and index
内容説明・目次
内容説明
Finite element analysis has been widely applied to study biomedical problems. This book aims to simulate some common medical problems using finite element advanced technologies, which establish a base for medical researchers to conduct further investigations.
This book consists of four main parts: (1) bone, (2) soft tissues, (3) joints, and (4) implants. Each part starts with the structure and function of the biology and then follows the corresponding finite element advanced features, such as anisotropic nonlinear material, multidimensional interpolation, XFEM, fiber enhancement, UserHyper, porous media, wear, and crack growth fatigue analysis. The final section presents some specific biomedical problems, such as abdominal aortic aneurysm, intervertebral disc, head impact, knee contact, and SMA cardiovascular stent. All modeling files are attached in the appendixes of the book.
This book will be helpful to graduate students and researchers in the biomedical field who engage in simulations of biomedical problems. The book also provides all readers with a better understanding of current advanced finite element technologies.
Details finite element modeling of bone, soft tissues, joints, and implants
Presents advanced finite element technologies, such as fiber enhancement, porous media, wear, and crack growth fatigue analysis
Discusses specific biomedical problems, such as abdominal aortic aneurysm, intervertebral disc, head impact, knee contact, and SMA cardiovascular stent
Explains principles for modeling biology
Provides various descriptive modeling files
目次
1. Introduction Part I: Bone 2. Bone Structure and Material Properties 3. Simulation of Nonhomogeneous Bone 4. Simulation of Anisotropic Bone 5. Simulation of Crack Growth Using the eXtended Finite Element Method (XFEM) Part II: Soft Tissues 6. Structure and Material Properties of Soft Tissues 7. Nonlinear Behavior of Soft Tissues 8. Viscoelasticity of Soft Tissues 9. Fiber Enhancement 10. USERMAT for Simulation of Soft Tissues 11. Modeling Soft Tissues as Porous Media Part III: Joints 12. Structure and Function of Joints 13. Modeling Contact 14. Application of the Discrete Element Method for Study of the Knee Joint Part IV: Simulation of Implants 15. Study of Contact in Ankle Replacement 16. Simulation of Shape Memory Alloy (SMA) Cardiovascular Stent 17. Wear Model of Liner in Hip Replacement 18. Fatigue Analysis of a Mini Dental Implant (MDI) Part V: Retrospective 19. Retrospective
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