The new ASM Handbook Volume 23A provides a comprehensive review of established and emerging 3D printing and bioprinting approaches for biomedical applications, and expansive coverage of various feedstock materials for additive manufacturing. It includes articles on 3D printing and bioprinting of surgical models, surgical implants, and other medical devices.
The new ASM Handbook Volume 23A provides a comprehensive review of established and emerging 3D printing and bioprinting approaches for biomedical applications, and expansive coverage of various feedstock materials for additive manufacturing.
The Volume includes articles on 3D printing and bioprinting of surgical models, surgical implants, and other medical devices:
• The introductory section considers developments and trends in additively manufactured medical devices and material aspects of additively manufactured medical devices.
• The polymer section considers vat polymerization and powder bed fusion of polymers.
• The ceramics section contains articles on binder jet additive manufacturing and selective laser sintering of ceramics for medical applications.
• The metals section includes articles on additive manufacturing of stainless steel, titanium alloy, and cobalt-chromium alloy biomedical devices.
• The bioprinting section considers laser-induced forward transfer, piezoelectric jetting, microvalve jetting, plotting, pneumatic extrusion, and electrospinning of biomaterials. Finally, the applications section includes articles on additive manufacturing of personalized surgical instruments, orthotics, dentures, crowns and bridges, implantable energy harvesting devices, and pharmaceuticals.
Selected articles will be published digital-first in the ASM Digital Library at dl.asminternational.org in advance of the full volume release.
CONTENTS
INTRODUCTION TO ADDITIVE MANUFACTURING IN BIOMEDICAL APPLICATIONS
Developments and Trends in Additively Manufactured Medical Devices
Material Aspects of Additively Manufactured Medical Devices
POLYMER ADDITIVE MANUFACTURING PROCESSES IN BIOMEDICAL APPLICATIONS
Vat Polymerization
Medical Applications of VAT Polymerization
Powder-Bed Fusion of Polymers
CERAMIC ADDITIVE MANUFACTURING PROCESSES IN BIOMEDICAL APPLICATIONS
Binder Jet Additive Manufacturing of Biomaterials
Selective Laser Sintering of Hydroxyapatite-Based Materials for Tissue Engineering
Production of Dicalcium Phosphate (DCPD) with Controlled Morphology and Reactivity
METAL ADDITIVE MANUFACTURING PROCESSES IN BIOMEDICAL APPLICATIONS
Powder Bed Fusion
Directed Energy Deposition
Development of Alloy Powders for Biomedical Additive Manufacturing
Additive Manufacturing of Stainless Steel Biomedical Devices
Additive Manufacturing of CoCr Alloy Biomedical Devices
Additive Manufacturing of Titanium and Titanium Alloy Biomedical Devices
Material Aspects of Additively Manufactured Orthopedic Implants of Titanium Alloys
BIOMATERIALS AND BIOPRINTING
In Situ Bioprinting–Current Applications and Future Challenges
Rational Design of Materials for 3D Bioprinting of Bioinks for Fabricating Human Tissues
Stereolithographic Additive Manufacturing of Biological Scaffolds
Laser-Induced Forward Transfer of Biomaterials
Inkjetting of Biomaterials
Piezoelectric Jetting of Biomaterials
Micro-Valve Jetting of Biomaterials
Micro/Nanoscale Plotting of Biomaterials
Pneumatic Extrusion of Biomaterials
Extrusion-Based 3D Bioprinting Technology
High-Throughput Electrospinning of Biomaterials
Bioprinting/Biofabrication with Alginate/Gelatine-Based Bioinks
3D Bioprinting of Naturally Derived Protein-Based Biopolymers
BIOMEDICAL APPLICATIONS OF ADDITIVELY MANUFACTURED MATERIALS
Bioprinting for Bone Tissue Engineering
Anatomical Modeling at the Point-of-Care
Personalized Surgical Instruments
Additive Manufacturing of Medical Devices
Additively Manufactured Orthotics
Additively Manufactured Biomedical Energy Harvesters
Additive Manufacturing in Medicine and Craniofacial Applications of 3D Printing
Additively Manufactured Dental Appliances
Additively Manufactured Dentures, Crowns, and Bridges
Zirconia for Dental Implants
Pharmaceutical 3D Printing