02660oam 2200529 450 991055421440332120230124200912.01-5231-5441-13-11-067694-X10.1515/9783110676945(CKB)4100000011768966(MiAaPQ)EBC6478569(DE-B1597)536489(DE-B1597)9783110676945(EXLCZ)99410000001176896620210628d2021 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierMagnesium materials from mountain bikes to degradable bone grafts /Yoshiki OshidaBerlin ;Boston :De Gruyter,[2021]©20211 online resource (832 pages)De Gruyter STEM3-11-067692-3 Frontmatter -- Contents -- Prologue -- Chapter 1 Introduction -- Chapter 2 Positioning of magnesium -- Chapter 3 Mg-based alloys -- Chapter 4 Mg-based composites, glassy materials and intermetallics -- Chapter 5 Physical metallurgy -- Chapter 6 Synthesis and casting -- Chapter 7 Thixotechnology -- Chapter 8 Heat treatment and strengthening -- Chapter 9 Formability -- Chapter 10 Forming and product forms -- Chapter 11 Joining -- Chapter 12 Hydrophobicity and wettability -- Chapter 13 Surface modifications -- Chapter 14 Basic properties -- Chapter 15 Superelasticity and superplasticity -- Chapter 16 Nonmedical applications -- Chapter 17 Biological behaviors -- Chapter 18 Biocorrosion and biodegradation -- Chapter 19 Biomedical applications -- Chapter 20 Future perspectives -- Epilogue -- IndexThe book provides an introduction to the topic of magnesium materials for biomedical applications. Additional to the background on magnesium's physical, chemical and mechanical properties, areas of use, related diseases and pathways for biodegradation will be discussed. Also, an outlook of the future of magnesium material applications will be provided.MagnesiumChemistry, TechnicalBiomedical engineeringBiomedical Engineering.Magnesium.Materials Science.Magnesium.Chemistry, Technical.Biomedical engineering.661.0392Oshida Yoshiki1149917MiAaPQMiAaPQUtOrBLWBOOK9910554214403321Magnesium materials2817937UNINA