Description
Biomaterial Mechanics
Coordinators: Hayenga Heather N., Aranda-Espinoza Helim
Language: EnglishSubjects for Biomaterial Mechanics:
Keywords
High Molecular Weight Neurofilament Proteins; MWCNT Exposure; Biomaterials in Devices; DNA Origami; Nanobiomaterials; Compressive Stress Strain Data; Biomolecular Modeling in Biomaterials; Actin Related Protein; 3D Printing in Biomaterials; Dummy Particles; Multiscale Biomaterial Mechanics; Fluorinated Ethylene Propylene Tubing; Biomaterials in Tissue Engineering; American Chemical Society; Radu Reit; WW Domain; Matthew Di Prima; CaP Cement; Walter E; Voit; Cost Efficient Evaluations; John F; Eberth; Soft Biological Materials; Tarek Shazly; Interfacial Biology; Danieli C; Rodrigues; Dental Implants; Izabelle M; Gindri; CG Bead; Sathyanarayanan Sridhar; Dipole Particles; Lucas Rodriguez; SWCNT; Shant Aghyarian; CoCr Alloys; Edna George; Intermediate Filaments; Shamik Sen; Linear Elastic Regime; Helim Aranda-Espinoza; Displacement Vector; Katrina Adlerz; Tissue Level Response; Mildred Quintana; Rigid ECMs; Said Aranda; Complementary Base Pairing; Ramak Khosravi; Considerable Advancements; Christopher K; Breuer; Jay D; Humphrey; Kristin S; Miller; Sai J; Ganesan; Silvina Matysiak; Clark A; Meyer; Kim L; Hayenga; Jesse K; Placone; John P; Fisher
Publication date: 12-2019
· 15.6x23.4 cm · Paperback
Publication date: 05-2017
· 15.6x23.4 cm · Hardback
Description
/li>Contents
/li>Biography
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This book describes the fundamental knowledge of mechanics and its application to biomaterials. An overivew of computer modeling in biomaterials is offered and multiple fields where biomaterials are used are reviewed with particular emphasis to the importance of the mechanical properties of biomaterials. The reader will obtain a better understanding of the current techniqus to synthesize, characterize and integrate biomaterials into the human body.
Overview of Mechanical Behavior of Materials. Overview of Nonlinear Solid Mechanics. Introduction to Mechanics of Biomaterials. Biomaterials in Devices. Biomaterials in 3D printing. Cell Constituents as a Biomaterial. Biomaterials in Tissue Engineering. Biomaterials in/for Cancer Research. Nanobiomaterials.Multiscale Biomaterial Mechanics. Biomolecular Modeling in Biomaterials. Finite Element Analysis in Biomaterials. Biomaterial Perspectives
Dr. Hayenga is the PI of the Vascular Mechanobiology Lab at UT Dallas. She has published over 50 peer reviewed papers in mechanotransduction. Dr. Aranda-Espinoza directrs the Cell Biophysics Lab at the U of Maryland. He has published over 125 papers and journal articles in cell biomechanics and related areas.
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