Basic Finite Element Method as Applied to Injury Biomechanics provides a unique introduction to finite element methods. Unlike other books on the topic, this comprehensive reference teaches readers to develop a finite element model from the beginning, including all the appropriate theories that are needed throughout the model development process.
In addition, the book focuses on how to apply material properties and loading conditions to the model, how to arrange the information in the order of head, neck, upper torso and upper extremity, lower torso and pelvis and lower extremity. The book covers scaling from one body size to the other, parametric modeling and joint positioning, and is an ideal text for teaching, further reading and for its unique application to injury biomechanics.
With over 25 years of experience of developing finite element models, the author's experience with tissue level injury threshold instead of external loading conditions provides a guide to the "do's and dont's" of using finite element method to study injury biomechanics.
- Covers the fundamentals and applications of the finite element method in injury biomechanics
- Teaches readers model development through a hands-on approach that is ideal for students and researchers
- Includes different modeling schemes used to model different parts of the body, including related constitutive laws and associated material properties
Sprache
Verlagsort
Verlagsgruppe
Elsevier Science & Techn.
Dateigröße
Schlagworte
ISBN-13
978-0-12-809832-5 (9780128098325)
Schweitzer Klassifikation
Newbooks Subjects & Qualifier
DNB DDC Sachgruppen
Dewey Decimal Classfication (DDC)
BIC 2 Klassifikation
BISAC Klassifikation
Warengruppensystematik 2.0
Dr. King-Hay Yang received his B.S. degree from the National Taiwan University in 1976 and Ph.D. degree from Wayne State University in 1985. He served as an Assistant Professor at the Department of Orthopedic Surgery, West Virginia University from 1985 to 1988. Presently, Dr. Yang is a Professor of the Department of Biomedical Engineering and the Director of the Bioengineering Center at Wayne State University. Since 2014, he has been serving as a member of the Human Factors Panel of the National Academies.
Dr. Yang's research interests include injury biomechanics, contact impact biomechanics, and bone fracture biomechanics. His most recent research involves detailed modeling of the human body from head to toe in efforts to investigate mechanisms of injury related to motor vehicle collisions, contact sports, and blast-induced injuries. His team developed a human brain model that is now on a permanent display at the Computer World of the Smithsonian Institution.
Dr. Yang received the 1984 Volvo award in Biomechanics, The Creators: Metro Detroit's Inventors award by Crane's Detroit Business; the Best Biomechanics Paper Award of the 2001 International Congress on Whiplash Associated Disorders; the 2001, 2007, and 2008 John Paul Stapp Best Paper Awards; and the 2009 Ralph H. Isbrandt Award for the best paper in automotive safety at the Society of Automotive Engineers (SAE) World Congress. He is a Fellow of the American Institute for Medicine and Biological Engineering (AIMBE) and a Fellow of SAE. He has served as a Visiting Professors at the Swiss Federal Institute of Technology in Zurich, Switzerland, in 1994; Monash University in Melbourne, Australia from 2001 to 2007; the National Cheng-Kung University in Tainan, Taiwan in 2003; the Honk Kong Polytech University in Kowloon, Hong Kong, in 2005; and the Taipei Medical University in 2011. He has also been a Chang-Jiang (Yangtze River) Professor of Hunan University in Changsha, Hunan, China since 2005.
Dr. Yang is a member of the Stapp Advisory Committee of the Stapp Car Crash Conference, the premier forum for presentation of research in impact biomechanics, human injury tolerance, and related fields that advance the knowledge of land-vehicle crash-injury protection. Additionally, he is a council member of the International Research Council on Biomechanics of Injury (IRCOBI), which aims at improving the scientific basis on which safety and crashworthiness standards are formulated. Lastly, he has been serving on the Advisory Committee of the Life Science Advisory Board, Lawrence Technical University, since 2007.
1. Introduction 2. Meshing, Element Types, and Element Shape Functions 3. Isoparametric Formulation and Mesh Quality 4. Element Stiffness Matrix 5. Material Laws and Properties 6. Boundary and loading conditions 7. Stepping through finite element analysis 8. Modal and Transient Dynamic Solutions 9. Biological Components Modeling 10. Parametric Modeling 11. Modeling passive and active muscle 12. Modeling the Head 13. Modeling the Neck 14. Modeling the Upper Torso and Upper Extremity 15. Modeling the Lower Torso 16. Modeling the Lower Extremity 17. Modeling Vulnerable subjects 18. Fundamentals of Blast Modeling
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