Materials Development and Processing for Biomedical Applications
Herausgeber: Kaya, Sava&; Arthanari, Srinivasan; Yesudass, Sasikumar
Materials Development and Processing for Biomedical Applications
Herausgeber: Kaya, Sava&; Arthanari, Srinivasan; Yesudass, Sasikumar
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This edited work includes new and novel strategies for the development and synthesis of materials and their biomedical applications. It will serve as a comprehensive resource for both students and scientists working in material and biomedical science.
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This edited work includes new and novel strategies for the development and synthesis of materials and their biomedical applications. It will serve as a comprehensive resource for both students and scientists working in material and biomedical science.
Produktdetails
- Produktdetails
- Verlag: Taylor and Francis
- Seitenzahl: 322
- Erscheinungstermin: 6. April 2022
- Englisch
- Abmessung: 254mm x 178mm x 21mm
- Gewicht: 807g
- ISBN-13: 9781032002880
- ISBN-10: 1032002883
- Artikelnr.: 62799681
- Verlag: Taylor and Francis
- Seitenzahl: 322
- Erscheinungstermin: 6. April 2022
- Englisch
- Abmessung: 254mm x 178mm x 21mm
- Gewicht: 807g
- ISBN-13: 9781032002880
- ISBN-10: 1032002883
- Artikelnr.: 62799681
Sava? Kaya, Sivakumar Bose
Chapter 01 Nanomaterials and its Application as Biomedical Materials
Chapter 02 An Introduction to Properties of Biomedical Materials
Chapter 03 Material Properties for Biomedical Applications
Chapter 04 Biocompatibility Studies of Materials-An Overview
Chapter 05 Fabrication Methods for 2D Materials with Heterostructures
Chapter 06 The Manufacturing of Magnesium Degradable Biomedical Implants
Chapter 07 Polymeric Materials and its Components for Biomedical
Applications
Chapter 08 Perspectives of 3D Printing Technology on Polymer Composites for
Biomedical Applications
Chapter 09 Laser Powder Bed Fusion of Ti6Al4V Alloy for Biomedical
Applications: Prospects and Challenges - Part 1: Process Details, Powder
Characteristics and Laser Irradiation
Chapter 10 Laser Powder Bed Fusion of Ti6Al4V Alloy for Biomedical
Applications: Prospects and Challenges - Part 2: Characteristic Properties
of As-built Parts and Post-Treatments
Chapter 11 Biomedical Applications of Laser Texturing
Chapter 12 Laser Processing and On-line Monitoring for Biomedical
Applications
Chapter 13 Laser Assisted Production of Calcium Phosphate Nanoparticles
from Marine Origin
Chapter 14 Surface Modifications of Biometals
Chapter 15 Surface Treatments of Load Bearing Bio-implant Materials
Chapter 16 Advance Surface Treatments for Enhancing the Biocompatibility of
Biomaterials
Chapter 17 Surface Nanostructuring of Ti Based Alloys for Biomedical
Applications: Role of Surface Mechanical Attrition Treatment
Chapter 18 Surface Modification by Electrospinning Technique on Mg Alloys
for Biomedical Applications
Chapter 19 Advanced Biomedical Devices: Technology for Healthcare
Applications
Chapter 20 Biosensors
Chapter 21 Future Trends in Biomedical Applications
Chapter 02 An Introduction to Properties of Biomedical Materials
Chapter 03 Material Properties for Biomedical Applications
Chapter 04 Biocompatibility Studies of Materials-An Overview
Chapter 05 Fabrication Methods for 2D Materials with Heterostructures
Chapter 06 The Manufacturing of Magnesium Degradable Biomedical Implants
Chapter 07 Polymeric Materials and its Components for Biomedical
Applications
Chapter 08 Perspectives of 3D Printing Technology on Polymer Composites for
Biomedical Applications
Chapter 09 Laser Powder Bed Fusion of Ti6Al4V Alloy for Biomedical
Applications: Prospects and Challenges - Part 1: Process Details, Powder
Characteristics and Laser Irradiation
Chapter 10 Laser Powder Bed Fusion of Ti6Al4V Alloy for Biomedical
Applications: Prospects and Challenges - Part 2: Characteristic Properties
of As-built Parts and Post-Treatments
Chapter 11 Biomedical Applications of Laser Texturing
Chapter 12 Laser Processing and On-line Monitoring for Biomedical
Applications
Chapter 13 Laser Assisted Production of Calcium Phosphate Nanoparticles
from Marine Origin
Chapter 14 Surface Modifications of Biometals
Chapter 15 Surface Treatments of Load Bearing Bio-implant Materials
Chapter 16 Advance Surface Treatments for Enhancing the Biocompatibility of
Biomaterials
Chapter 17 Surface Nanostructuring of Ti Based Alloys for Biomedical
Applications: Role of Surface Mechanical Attrition Treatment
Chapter 18 Surface Modification by Electrospinning Technique on Mg Alloys
for Biomedical Applications
Chapter 19 Advanced Biomedical Devices: Technology for Healthcare
Applications
Chapter 20 Biosensors
Chapter 21 Future Trends in Biomedical Applications
Chapter 01 Nanomaterials and its Application as Biomedical Materials
Chapter 02 An Introduction to Properties of Biomedical Materials
Chapter 03 Material Properties for Biomedical Applications
Chapter 04 Biocompatibility Studies of Materials-An Overview
Chapter 05 Fabrication Methods for 2D Materials with Heterostructures
Chapter 06 The Manufacturing of Magnesium Degradable Biomedical Implants
Chapter 07 Polymeric Materials and its Components for Biomedical
Applications
Chapter 08 Perspectives of 3D Printing Technology on Polymer Composites for
Biomedical Applications
Chapter 09 Laser Powder Bed Fusion of Ti6Al4V Alloy for Biomedical
Applications: Prospects and Challenges - Part 1: Process Details, Powder
Characteristics and Laser Irradiation
Chapter 10 Laser Powder Bed Fusion of Ti6Al4V Alloy for Biomedical
Applications: Prospects and Challenges - Part 2: Characteristic Properties
of As-built Parts and Post-Treatments
Chapter 11 Biomedical Applications of Laser Texturing
Chapter 12 Laser Processing and On-line Monitoring for Biomedical
Applications
Chapter 13 Laser Assisted Production of Calcium Phosphate Nanoparticles
from Marine Origin
Chapter 14 Surface Modifications of Biometals
Chapter 15 Surface Treatments of Load Bearing Bio-implant Materials
Chapter 16 Advance Surface Treatments for Enhancing the Biocompatibility of
Biomaterials
Chapter 17 Surface Nanostructuring of Ti Based Alloys for Biomedical
Applications: Role of Surface Mechanical Attrition Treatment
Chapter 18 Surface Modification by Electrospinning Technique on Mg Alloys
for Biomedical Applications
Chapter 19 Advanced Biomedical Devices: Technology for Healthcare
Applications
Chapter 20 Biosensors
Chapter 21 Future Trends in Biomedical Applications
Chapter 02 An Introduction to Properties of Biomedical Materials
Chapter 03 Material Properties for Biomedical Applications
Chapter 04 Biocompatibility Studies of Materials-An Overview
Chapter 05 Fabrication Methods for 2D Materials with Heterostructures
Chapter 06 The Manufacturing of Magnesium Degradable Biomedical Implants
Chapter 07 Polymeric Materials and its Components for Biomedical
Applications
Chapter 08 Perspectives of 3D Printing Technology on Polymer Composites for
Biomedical Applications
Chapter 09 Laser Powder Bed Fusion of Ti6Al4V Alloy for Biomedical
Applications: Prospects and Challenges - Part 1: Process Details, Powder
Characteristics and Laser Irradiation
Chapter 10 Laser Powder Bed Fusion of Ti6Al4V Alloy for Biomedical
Applications: Prospects and Challenges - Part 2: Characteristic Properties
of As-built Parts and Post-Treatments
Chapter 11 Biomedical Applications of Laser Texturing
Chapter 12 Laser Processing and On-line Monitoring for Biomedical
Applications
Chapter 13 Laser Assisted Production of Calcium Phosphate Nanoparticles
from Marine Origin
Chapter 14 Surface Modifications of Biometals
Chapter 15 Surface Treatments of Load Bearing Bio-implant Materials
Chapter 16 Advance Surface Treatments for Enhancing the Biocompatibility of
Biomaterials
Chapter 17 Surface Nanostructuring of Ti Based Alloys for Biomedical
Applications: Role of Surface Mechanical Attrition Treatment
Chapter 18 Surface Modification by Electrospinning Technique on Mg Alloys
for Biomedical Applications
Chapter 19 Advanced Biomedical Devices: Technology for Healthcare
Applications
Chapter 20 Biosensors
Chapter 21 Future Trends in Biomedical Applications