This book focuses on the recent advances in the field of orthopaedic biomaterials, with a particular emphasis on their design and fabrication. Biomimetic materials, having similar properties and functions to that of the natural tissue, are becoming a popular choice for making customized orthopaedic implants and bone scaffolds. The acceptability of these materials in the human body depends on the right balance between their mechanical and biological properties. This book provides a comprehensive overview of the state-of-the-art research in this rapidly evolving field. The chapters cover…mehr
This book focuses on the recent advances in the field of orthopaedic biomaterials, with a particular emphasis on their design and fabrication. Biomimetic materials, having similar properties and functions to that of the natural tissue, are becoming a popular choice for making customized orthopaedic implants and bone scaffolds. The acceptability of these materials in the human body depends on the right balance between their mechanical and biological properties. This book provides a comprehensive overview of the state-of-the-art research in this rapidly evolving field. The chapters cover different aspects of multi-functional biomaterials design, and cutting-edge methods for the synthesis and processing of these materials. Advanced manufacturing techniques, like additive manufacturing, used for developing new biomimetic materials are highlighted in the book. This book is a valuable reference for students and researchers interested in biomaterials for orthopaedic applications.
Dr. Preetkanwal Singh Bains is a researcher and faculty in the Department of Mechanical Engineering, Beant College of Engineering and Technology, Gurdaspur, India. His current research interests include materials engineering and advanced machining processes. He received his Ph.D. in Mechanical Engineering from IKG Punjab Technical University, India, in year 2018. He has contributed numerous innovative and novel manufacturing techniques, for which three patents have been filed in various fields of mechanical engineering. He is a member of the Indian Society for Technical Education (ISTE) and American Society of Mechanical Engineers (ASME). He has also contributed many significant publications and served as a reviewer for prominent journals and conferences. Dr. Sarabjeet Singh Sidhu is an Assistant Professor in the Department of Mechanical Engineering, Beant College of Engineering and Technology, Gurdaspur, Punjab, India. He received his Masters of Technology from IKG Punjab Technical University, Jalandhar and Ph.D. from Thapar University, Patiala, India. His research interests include surface modification, and residual stress analysis in metal matrix composites, biomaterials and non-conventional machining processes. He has published more than 50 technical papers in reputed national and international journals/conferences and also served as reviewer for various journals. Recently, he was awarded with the Contribution Award by the Journal of Mechanical Science and Technology (Springer). Dr. Marjan Bahraminasab is an Assistant Professor in the Department of Tissue Engineering and Applied Cell Sciences at Semnan University of Medical sciences. She received her Ph.D. in Biomaterials Engineering from Universiti Putra Malaysia, and she is active in the design and manufacture of hybrid biomaterials. Her areas of interest include new biomaterials for hard tissue replacement and repair, orthopaedic prostheses, biomaterials design and selection, and biomechanics and finite element analysis. Dr. Chander Prakash is Associate Professor in the School of Mechanical Engineering, Lovely Professional University, Jalandhar, India. He received his Ph.D in Mechanical Engineering from Panjab University, Chandigarh, India. His research areas include biomaterials, rapid prototyping and 3-D printing, advanced manufacturing, modeling, simulation, and optimization. He has more than 11 years of teaching experience and 6 years research experience. He has made extensive contributions in the domain of titanium and magnesium based implant with publications appearing in several reputed journals. He has authored 70 research papers and 10 book chapters. He has also edited books titled "Current Trends in Bio-manufacturing", and "3D Printing in Biomedical Engineering", both published by Springer. Dr. Prakash is also the Guest Editor of 6 journals.
Inhaltsangabe
1. Alumina-titanium bio-composites for orthopedic applications.- 2. Manufacturing and characterization of nickel filled Co-30Cr-4Mo metal alloy for orthopedic applications.- 3. Development of Porous Hydroxyaptite scaffold for Bone Regeneration Applications .- 4. Current challenges and Blooms in 3D printing of biomedical devices.- 5. Development of Biodegradable Mg-Hydroxyapatite scaffold for Bone Tissue Engineering Applications.- 6. Current Advances and Future Pathways of 3-D Printing in Bone Tissue Engineering.- 7. Neurosurgical Bone Grinding.- 8. Surface Modification of metallic biomaterials for enhanced wear, corrosion, and bio-activity for Orthopedic Applications.- 9. Influence of machining induced surface integrity on corrosion resistance of Mg-alloy.- 10. Influence of spark plasma on corrosion behavior of Co-Cr implants.- 11. Fabrication of medical model/ implants.- 12. Surface Modification Approach to Bio-manufacturing: Enhancing Surface Integrity and Bio-mechanical Performance of Implants.- 13. Bioinformatics & Nanotechnology: Current Challenges and Pathways.- 14. Biomaterials in orthopaedics and bone regeneration: Design and Synthesis.- 15. Zinc Powder Mixed Electro-discharge Machining on Magnesium Alloy for Potential Biodegradable Implants Application.- 16. Smart Nano-Biomaterial in Orthopaedic Applications.
1. Alumina-titanium bio-composites for orthopedic applications.- 2. Manufacturing and characterization of nickel filled Co-30Cr-4Mo metal alloy for orthopedic applications.- 3. Development of Porous Hydroxyaptite scaffold for Bone Regeneration Applications .- 4. Current challenges and Blooms in 3D printing of biomedical devices.- 5. Development of Biodegradable Mg-Hydroxyapatite scaffold for Bone Tissue Engineering Applications.- 6. Current Advances and Future Pathways of 3-D Printing in Bone Tissue Engineering.- 7. Neurosurgical Bone Grinding.- 8. Surface Modification of metallic biomaterials for enhanced wear, corrosion, and bio-activity for Orthopedic Applications.- 9. Influence of machining induced surface integrity on corrosion resistance of Mg-alloy.- 10. Influence of spark plasma on corrosion behavior of Co-Cr implants.- 11. Fabrication of medical model/ implants.- 12. Surface Modification Approach to Bio-manufacturing: Enhancing Surface Integrity and Bio-mechanical Performance of Implants.- 13. Bioinformatics & Nanotechnology: Current Challenges and Pathways.- 14. Biomaterials in orthopaedics and bone regeneration: Design and Synthesis.- 15. Zinc Powder Mixed Electro-discharge Machining on Magnesium Alloy for Potential Biodegradable Implants Application.- 16. Smart Nano-Biomaterial in Orthopaedic Applications.
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