國立虎尾科技大學 |

Polymer processing : = design, printing and applications of multi-dimensional techniques /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Polymer processing :/ Abhijit Bandyopadhyay and Rahul Chatterjee.
其他題名:	design, printing and applications of multi-dimensional techniques /
作者:	Bandyopadhyay, Abhijit,
其他作者:	Chatterjee, Rahul,
面頁冊數:	1 online resource :illustrations. :
標題:	Polymers. -
電子資源:	https://www.taylorfrancis.com/books/9781003349341
電子資源:	http://www.oclc.org/content/dam/oclc/forms/terms/vbrl-201703.pdf
ISBN:	9781003349341

Polymer processing : = design, printing and applications of multi-dimensional techniques /
Bandyopadhyay, Abhijit,

Polymer processing :design, printing and applications of multi-dimensional techniques /Abhijit Bandyopadhyay and Rahul Chatterjee. - First edition. - 1 online resource :illustrations. - Emerging Materials and Technologies.

Chapter 1: Fundamentals of New-Age PrintingConcept Additive Manufacturing and Its TypesWhat is 3D Printing?History of 3D PrintingPresent Scenario of 3D Printing1.4.1. Estimated growth of 3D printing in automotives from 2012 to 20251.4.2. Accessible 3D Printing Material Options are Surging1.4.3. Potential areas of improvement ReferencesChapter 2: Basic Know-How about 3D Printing!2.1. Types of Major 3D Printing Technology2.2. Digital Light Processing(DLP)2.3. Fused Deposition Modelling (FDM)2.4. Selective Laser Sintering (SLS)2.5. Electron Beam Melting (EBM)2.6. Binder Jettingand Material Jetting2.7. Drop on Demand2.8. The Desktop 3D Printer2.9. Open Source ReferencesChapter 3: Basic Learning of 3D Printing Process3.1 Basic Concepts of 3D Modelling 3.2 Types of Modelling3.3 Design Strategies3.4 Architected Materials3.5 Stimuli-Responsive3.6 Multi-Material3.7 Functionally Graded3.8 How to Slice a Model3.9 Support Structures3.10 FDM vs SLA Slicing3.11 Conclusion3.12 What is G-Code?3.13 Material Consideration3.14 Case StudiesReferencesChapter 4: Selection of Polymers for 3D Printing4.1 Materials Used in Photopolymerization Process4.2 Polyjet4.3 Digital Materials4.4 Electron Beam Melting4.5 Support Material4.6 Physical Structure of Polymers4.7 Inter-Polymer ForcesReferencesChapter 5: 3D Printing Vis-a-Vis Traditional Prototyping 5.1. Moving away from Metal 5.2. Cause of choosing polymers over metal5.3. Printing Computationally Complex Objects5.4. Printing Physically Big Objects5.5. Post Processing5.6. Troubleshooting5.7. Printing Defects and remedies5.8. Small Features PrintingReferences Chapter 6: Scopes for Using Waste Plastics6.1. Introduction6.2. The Problem of Plastics6.3 Pollution by Plastics Additives6.4 Plastic Pollution Is a Human Health Issue6.5 How to Turn Plastic Waste into 3D Printing Profit6.6 Polymer Recycling in AM--an Opportunity for the Circular Economy6.7 Polymers/Composites Made from Recycled Materials Through FDM6.8 SCALE UP Studies6.9 The Future of 3D Printing in ManufacturingReferencesChapter 7: 3D Printing Vs Injection Moulding7.1. Basics of injection moulding7.2. Injection molding equipment, moulds and process7.3. Different Type Injection moulding process7.4. Injection moulding process parameters7.5. Micron injection moulding7.6. Cons of Injection moulding7.7. Benefits of 3D PriningReferencesChapter 8: Futuristic 3D Printing Applications 8.1. 3D printing in classrooms8.2. Scientific visualisation8.3. Revolution in medical fields8.4. Challenges of digital construction8.5. Building Information Modeling (BIM)8.6. Problems relating to materialsReferencesChapter 9: Polymer 4D Printing-Future Perspective9.1. Introduction of 4D Printing9.2. Fundamentals of 4D Printing9.3. Factors responsible for 4D printing9.4. Laws of 4D printing9.5. Technology fundamentals of 3D and 4D printing9.6. Smart Materials9.7. 3D Printing vs 4D Printing9.8. 4D Printing Examples9.9. Different techniques of 4D printing9.10. Development of 4D printing9.11. How Qi's 4D printing technology works9.12. Applications of 4D printing9.13. Advantages of 4D printing9.14. Disadvantages of 4D printing9.15. Motivations9.16. Future directions and opportunitiesReferences

This book covers polymer 3D printing through basics of technique and its implementation. It begins with the discussion on fundamentals of new-age printing, know-how of technology, methodology of printing, and product design perspectives. It includes aspects of CAD along with uses of Slicer software, image analysis software and MATLAB® programming in 3D printing of polymers. It covers choice of polymers for printing subject to their structure-property relationship, troubleshooting during printing, and possible uses of waste plastics and other waste materials. Key Features Explores polymeric material printing and design. Provides information on the potential for the transformation and manufacturing, reuse and recycling of polymeric material. Includes comparison of 3D printing and injection moulding. Discusses CAD design and pertinent scaling-up process related to polymers. Offers basic strategies for improvement and troubleshooting of 3D printing. This book is aimed at professionals and graduate students in polymer and mechanical engineering and materials science and engineering.

ISBN: 9781003349341

Standard No.: 10.1201/9781003349341doiSubjects--Topical Terms:

561233
Polymers.

LC Class. No.: TS171.95

Dewey Class. No.: 621.9/88

Polymer processing : = design, printing and applications of multi-dimensional techniques /
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505 0 $a Chapter 1: Fundamentals of New-Age PrintingConcept Additive Manufacturing and Its TypesWhat is 3D Printing?History of 3D PrintingPresent Scenario of 3D Printing1.4.1. Estimated growth of 3D printing in automotives from 2012 to 20251.4.2. Accessible 3D Printing Material Options are Surging1.4.3. Potential areas of improvement ReferencesChapter 2: Basic Know-How about 3D Printing!2.1. Types of Major 3D Printing Technology2.2. Digital Light Processing(DLP)2.3. Fused Deposition Modelling (FDM)2.4. Selective Laser Sintering (SLS)2.5. Electron Beam Melting (EBM)2.6. Binder Jettingand Material Jetting2.7. Drop on Demand2.8. The Desktop 3D Printer2.9. Open Source ReferencesChapter 3: Basic Learning of 3D Printing Process3.1 Basic Concepts of 3D Modelling 3.2 Types of Modelling3.3 Design Strategies3.4 Architected Materials3.5 Stimuli-Responsive3.6 Multi-Material3.7 Functionally Graded3.8 How to Slice a Model3.9 Support Structures3.10 FDM vs SLA Slicing3.11 Conclusion3.12 What is G-Code?3.13 Material Consideration3.14 Case StudiesReferencesChapter 4: Selection of Polymers for 3D Printing4.1 Materials Used in Photopolymerization Process4.2 Polyjet4.3 Digital Materials4.4 Electron Beam Melting4.5 Support Material4.6 Physical Structure of Polymers4.7 Inter-Polymer ForcesReferencesChapter 5: 3D Printing Vis-a-Vis Traditional Prototyping 5.1. Moving away from Metal 5.2. Cause of choosing polymers over metal5.3. Printing Computationally Complex Objects5.4. Printing Physically Big Objects5.5. Post Processing5.6. Troubleshooting5.7. Printing Defects and remedies5.8. Small Features PrintingReferences Chapter 6: Scopes for Using Waste Plastics6.1. Introduction6.2. The Problem of Plastics6.3 Pollution by Plastics Additives6.4 Plastic Pollution Is a Human Health Issue6.5 How to Turn Plastic Waste into 3D Printing Profit6.6 Polymer Recycling in AM--an Opportunity for the Circular Economy6.7 Polymers/Composites Made from Recycled Materials Through FDM6.8 SCALE UP Studies6.9 The Future of 3D Printing in ManufacturingReferencesChapter 7: 3D Printing Vs Injection Moulding7.1. Basics of injection moulding7.2. Injection molding equipment, moulds and process7.3. Different Type Injection moulding process7.4. Injection moulding process parameters7.5. Micron injection moulding7.6. Cons of Injection moulding7.7. Benefits of 3D PriningReferencesChapter 8: Futuristic 3D Printing Applications 8.1. 3D printing in classrooms8.2. Scientific visualisation8.3. Revolution in medical fields8.4. Challenges of digital construction8.5. Building Information Modeling (BIM)8.6. Problems relating to materialsReferencesChapter 9: Polymer 4D Printing-Future Perspective9.1. Introduction of 4D Printing9.2. Fundamentals of 4D Printing9.3. Factors responsible for 4D printing9.4. Laws of 4D printing9.5. Technology fundamentals of 3D and 4D printing9.6. Smart Materials9.7. 3D Printing vs 4D Printing9.8. 4D Printing Examples9.9. Different techniques of 4D printing9.10. Development of 4D printing9.11. How Qi's 4D printing technology works9.12. Applications of 4D printing9.13. Advantages of 4D printing9.14. Disadvantages of 4D printing9.15. Motivations9.16. Future directions and opportunitiesReferences
520 $a This book covers polymer 3D printing through basics of technique and its implementation. It begins with the discussion on fundamentals of new-age printing, know-how of technology, methodology of printing, and product design perspectives. It includes aspects of CAD along with uses of Slicer software, image analysis software and MATLAB® programming in 3D printing of polymers. It covers choice of polymers for printing subject to their structure-property relationship, troubleshooting during printing, and possible uses of waste plastics and other waste materials. Key Features Explores polymeric material printing and design. Provides information on the potential for the transformation and manufacturing, reuse and recycling of polymeric material. Includes comparison of 3D printing and injection moulding. Discusses CAD design and pertinent scaling-up process related to polymers. Offers basic strategies for improvement and troubleshooting of 3D printing. This book is aimed at professionals and graduate students in polymer and mechanical engineering and materials science and engineering.
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