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Polymer-based additive manufacturing : biomedical applications

Author: Declan M Devine
Publisher: Cham : Springer, 2019.
Edition/Format:   eBook : Document : EnglishView all editions and formats
Summary:
This book aims to give readers a basic understanding of commonly used additive manufacturing techniques as well as the tools to fully utilise the strengths of additive manufacturing through the modelling and design phase all the way through to post processing. Guidelines for 3D printed biomedical implants are also provided. Current biomedical applications of 3D printing are discussed, including indirect applications  Read more...
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Genre/Form: Electronic books
Additional Physical Format: Print version:
Devine, Declan M.
Polymer-Based Additive Manufacturing : Biomedical Applications.
Cham : Springer, ©2019
Material Type: Document, Internet resource
Document Type: Internet Resource, Computer File
All Authors / Contributors: Declan M Devine
ISBN: 9783030245320 3030245322
OCLC Number: 1120696273
Notes: 5.2 Additive Manufacturing of Biomedical Implants
Includes index.
Description: 1 online resource (286 pages)
Contents: Intro; Preface; Contents; Contributors; Chapter 1: Polymer-Based Additive Manufacturing: Historical Developments, Process Types and Material Considerations; 1.1 Introduction; 1.2 Stereolithography (SLA); 1.3 Fused Filament Fabrication; 1.4 Selective Laser Sintering (SLS); 1.5 Freeformer; 1.6 InkJet Techniques; 1.7 Laminated Object Manufacturing; 1.8 Summary; References; Chapter 2: Design for Additive Manufacturing; 2.1 Introduction; 2.2 Design for Manufacturing and Assembly; 2.3 Advantages of Additive Manufacturing as a Production Process; 2.3.1 Product Digitisation and Rapid Prototyping 2.3.2 Topology Optimisation2.3.3 Geometrical Design Freedom at Low Cost; 2.3.4 Product Customisation; 2.3.5 Product Consolidation; 2.3.6 Lightweight Structures; 2.3.7 Integrated Functions and Internal Features; 2.3.8 Multiple Material Builds; 2.3.9 Optimisation of Supply Chain and Inventory; 2.4 Suitability of Additive Manufacturing; 2.5 Product Design Considerations; 2.5.1 Additive Technology Selection; 2.5.2 Material Selection; 2.5.3 Layer Height; 2.5.4 Support Structures; 2.5.5 Build Orientation; 2.5.6 Overhangs and Unsupported Features; 2.5.7 Hole Design 2.5.8 Hollow Sections and Escape Holes2.5.9 Thin Features; 2.5.10 Geometric Tolerances and Surface Quality; 2.6 Post-processing; 2.6.1 Material Removal; 2.6.2 Surface Finishing and Improving Geometrical Tolerances; 2.7 Product Consolidation and Weight Saving Using Additive Manufacturing; 2.8 Chapter Summary; References; Chapter 3: Mechanics Modeling of Additive Manufactured Polymers; 3.1 Introduction; 3.2 Nonlinear Modeling of Additive Manufactured Photopolymers; 3.2.1 Finite Strain Anisotropic Model for Plastics; 3.2.2 Anisotropic Hyperelastic Model for Elastomers 3.3 Modeling of Shape Memory Photopolymers3.3.1 Background of Shape Memory Polymers; 3.3.2 Model Descriptions; 3.3.3 Additive Manufactured Shape Memory Structures; 3.4 Summary; References; Chapter 4: Additive Manufacturing of Tooling for Use in Mass Production Processes; 4.1 Introduction; 4.2 Technologies; 4.2.1 Injection Moulding; 4.2.2 Blow Moulding; 4.3 Cooling; 4.3.1 Benefits of Optimised Cooling System Design; 4.3.2 Conformal Cooling; 4.4 Comparison of UV Photocurable AM Resin Tools to Metal AM Tools; 4.5 Benefits of Using Resin-Based Rapid Tools for Injection Moulding 4.6 Rapid Tooling: Case Studies4.6.1 Design Verification Through the Use of Resin-Based Tooling; 4.6.2 Resin-Based Rapid Tooling to Reduce Costs and Lead Times; 4.6.3 Ceramic-Polymer Tooling Inserts for Use in the Production of Electrical Switch Components; 4.6.4 Comparison of Resin-Based Printed Tooling to Metal Tooling; 4.6.5 Comparison of Service Life of Tools Using Different Resins; 4.6.6 Carbon Fibre-Reinforced Rapid Tooling Inserts; 4.7 Limitations of Polymer-Based Rapid Tooling; 4.8 Summary; References; Chapter 5: Current Market for Biomedical Implants; 5.1 Introduction
Responsibility: Declan M. Devine, editor.

Abstract:

This book aims to give readers a basic understanding of commonly used additive manufacturing techniques as well as the tools to fully utilise the strengths of additive manufacturing through the  Read more...

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