Biomanufacturing /

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Bibliographic Details
Imprint:	Cham, Switzerland : Springer, [2019] ©2019
Description:	1 online resource
Language:	English
Subject:	Biochemical engineering. Industrial microbiology. Biochemical engineering. Industrial microbiology.
Format:	E-Resource Book
URL for this record:	http://pi.lib.uchicago.edu/1001/cat/bib/11852039

Hidden Bibliographic Details
Other authors / contributors:	Prakash, Chander, editor. Singh, Sunpreet, editor. Singh, Rupinder, editor. Ramakrishna, Seeram, editor. Pabla, B. S., 1958- editor. Puri, Sunjiv, editor. Uddin, M. S., editor.
ISBN:	9783030139513 3030139514 9783030139520 3030139522 9783030139537 3030139530 9783030139506 3030139506
Digital file characteristics:	text file PDF
Notes:	Includes bibliographical references. Vendor-supplied metadata.
Summary:	This book presents cutting-edge research on the design, fabrication, assembly, and measurement of bio-elements in structures, devices, and systems. The field of biomaterial and biomanufacturing is growing exponentially in order to meet the increasing demand for artificial joints, organs and bone-fixation devices. Rapid advances in the biological sciences and engineering are leading to novel and viable resources, methods and techniques that may provide better quality of life and more affordable health care services. The book covers various aspects of biomanufacturing, including: • synthesis of biomaterials; • implant coating techniques; • spark plasma sintering; • microwave processing; and • cladding, powder metallurgy and electrospinning. The contributors illustrate the recent trends in biomanufacturing, highlighting the main aspects of biomaterial synthesis, including their use as feedstock in fabrication technologies, characterization, in-vivo/in-vitro mechanical analysis and associated ISO standards, and their clinical implementation. As such, it provides a comprehensive update on the latest advances and techniques for researchers and scientists in the field.
Other form:	Print version: Biomanufacturing. Cham, Switzerland : Springer, [2019] 3030139506 9783030139506
Standard no.:	10.1007/978-3-030-13951-3

Table of Contents:

Intro; Preface; Contents; Editors and Contributors; Current Trends in Biomaterials and Bio-manufacturing; 1 Introduction and Requirement of Biomaterials; 2 Fabrication Technique to Synthesize Porous Implants; 2.1 Powder Metallurgy Route Using Temporary Space Alloying and Foaming Agent; 2.2 Additive Manufacturing and 3-D Printing; 2.3 Electrospinning; 3 Innovative Surface Engineering/Surface Modification Techniques; 3.1 Electrodeposition Technique; 3.2 Electric Discharge Machining; 3.3 Thermal Spray Coating Process; 3.4 Surface Finishing of Implants; 4 Conclusion and Future Work Scope
2 Preoperative Preparations and Surgical Planning3 Subject-Specific Miniplate Design; 4 Case Study: Subject-Specific Miniplate Design for the Preoperative Virtual Planning Process; 4.1 Results and Discussion; 5 Conclusion; References; Additive Manufacturing: Current Concepts, Methods, and Applications in Oral Health Care; 1 Additive Manufacturing: Current Concepts, Methods, and Applications in Oral Health Care; 2 Additive Manufacturing: General Aspects; 3 Contemporary Status of Additive Manufacturing in Oral Health Care; 4 Materials for Additive Manufacturing for Dental Applications
5 Applications of Additive Manufacturing in the Clinical Dentistry6 Biological Analysis of Additive Manufacturing Processes Part; 6.1 Stereolithography (SLA); 6.2 Fused Deposition Modeling (FDM); 6.3 Selective Electron Beam Melting (SEBM); 6.4 Laser Powder Forming Techniques; 6.5 Inkjet Printing Technologies; 6.6 The Masking Process and Laser Polymerization; 6.7 Emerging Paradigm of 3D Printing and Its Impact on Dentistry; 7 Future and Challenges; 8 Conclusion; References; Neurosurgical Bone Grinding; 1 Introduction of Neurosurgical Grinding; 2 Bone Grinding; 2.1 Mechanics of Grinding
2.2 Process parameters2.3 Computational Modeling; 2.4 Recent Case Studies; 3 Future Work Scope; 4 Concluding Remarks; References; Micro-machining Performance Assessment of Ti-Based Biomedical Alloy: A Finite Element Case Study; 1 Introduction; 2 Modeling of Textured Geometry on Rake Face of Cutting Tool; 2.1 3D Simulation; 3 Results and Discussions; 3.1 Effects of Microgroove Geometry and Cutting Speed on Radial Force or Thrust Force; 3.2 Effects of Microgroove Geometry and Cutting Speed on Tangential Force; 3.3 Effects of Microgroove Geometry and Cutting Speed on Feed Force or Axial Force

Biomanufacturing /

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