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From Additive Manufacturing to 3D Printing : Breakthrough Innovations: Programmable Material, 4D Printing and Bio-Printing.
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Newark :
John Wiley & Sons, Incorporated,
2017.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- 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. â#x80;#x9C;Smartâ#x80;#x9D; 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 robots1.5. 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 â#x80;#x9C;Smartâ#x80;#x9D; 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. Processâ#x80;#x93;material couplings; 2.3.5. Subsequent cell growth.
- 2.4. Comment: 4D bio-printing2.5. 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 â#x80;#x9C;soft robotsâ#x80;#x9D; 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-printing3.3.1. 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 ethics4.3.3. 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.