From additive manufacturing to 3D/4D printing 3 : breakthrough innovations: programmable material, 4D printing and bio-printing

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Bibliographic Details
Main Author	André, J.-C (Author)
Format	Electronic eBook
Language	English
Published	Hoboken, New Jersey : Wiley, 2018.
Series	Robotics series.
Subjects	Three-dimensional printing. Additive manufacturing. elektronické knihy electronic books
Online Access	Full text
ISBN	1523123540 9781523123544 1119482771 9781119482772 1119482763 9781119482765 1119451507 9781119451501
Physical Description	1 online resource (473 pages) : illustrations (some color)

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Table of Contents:

Cover
Half-Title Page
Title Page
Copyright Page
Contents
Acknowledgments
Foreword
Preface
Introduction
PART 1. Programmable Smart/Intelligent Matter and 4D Printing
Introduction to Part 1
1. Programmable Matter or Smart Matter, Stimulated Organization and 4D Printing
1.1. Introduction
1.2. Natural (spontaneous) self-organization
1.2.1. Nonlinearities
1.2.2. Achieving the desired form?
1.3. "Smart" matter
1.3.1. Active polymers: photochemical muscles
1.3.2. Physical alterations
1.3.3. Distortion of metal parts
1.3.4. Conclusion
1.4. A transition to 4D printing: swimming robots
1.5. 4D Printing
1.5.1. Automation and robots
1.5.2. Origami
1.5.3. Octobot
1.5.4. Massive objects
1.6. Conclusion
1.7. Bibliography
PART 2. Live "Smart" Matter and (Bio-printing)
Introduction to Part 2
I.1. Introduction
I.2. Background
I.3. Bibliography
2. Bio-printing Technologies
2.1. Introduction
2.2. Tissue complexity
2.3. Bio-printing technologies
2.3.1. Cell preparation
2.3.2. Generic bio-printing technologies
2.3.3. Materials
2.3.4. Process-material couplings
2.3.5. Subsequent cell growth
2.4. Comment: 4D bio-printing
2.5. Other applications
2.5.1. Biological applications
2.5.2. Is it possible to feed ourselves thanks to bio-printing?
2.5.3. Bioluminescence and electronics
2.5.4. Bio-printed Bio-bots or "soft robots" produced by additive manufacturing
2.6. Conclusion
2.7. Appendix: 3D printing for biological applications
2.8. Bibliography
3. Some Examples of 3D Bio-printed Tissues
3.1. Introduction
3.2. Work on cartilage
3.2.1. General remarks on cartilage
3.2.2. Cartilaginous defects and treatments
3.2.3. Cartilage bio-printing
3.2.4. Primary results
3.3. Skin bio-printing.
3.3.1. General remarks on skin
3.3.2. Bio-printing skin
3.3.3. Conclusion
3.4. Bone
3.4.1. General remarks on the composition of bone
3.4.2. Bone bio-printing
3.4.3. Conclusion
3.5. Bio-printing and cancer
3.5.1. Examples
3.5.2. Conclusion and perspectives
3.6. General Conclusion
3.7. Bibliography
4. Ethical Issues and Responsible Parties
4.1. Introduction
4.2. Reflection on the acceptance of bio-printing
4.2.1. Raw survey data
4.2.2. General discussion: whom to trust?
4.2.3. Preliminary conclusion
4.3. Ethics and bio-printing
4.3.1. Framing elements
4.3.2. Return on the concept of ethics
4.3.3. What can be foreseen?
4.3.4. Conclusion
4.4. Governing bio-printing research: mastering convergence
4.4.1. Return to 3D printing
4.4.2. Promises of NBIC convergence and bio-printing
4.4.3. Convergence
4.4.4. Comparisons
4.4.5. Epistemological questions
4.5. Conclusion
4.6. Bibliography
5. Questions of Epistemology and Modeling
5.1. Introduction
5.2. The PE approach (seen by a possible divergent, somewhat of an HE) [AND 16]
5.3. The HE approach
5.4. Complexity and bio-printing
5.4.1. Complexity?
5.4.2. Initial reflection for action
5.5. Return to complexity
5.5.1. Complexity and system approach
5.6. Bases of reflection on modeling
5.6.1. Shooting or Monte-Carlo methods
5.6.2. Analogy with David Bohm's works?
5.6.3. Cellular differentiation
5.6.4. Scale change(s)
5.6.5. Questions for realistic modeling
5.6.6. Provision of an operatory reference
5.6.7. Organizational methodology
5.7. Conclusion
5.8. Bibliography
Conclusion
Postface
Index
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From additive manufacturing to 3D/4D printing 3 : breakthrough innovations: programmable material, 4D printing and bio-printing

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