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210123 ||| eng |
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|a 9781119428299
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|a 9781119437376
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|a 1119428297
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|a 1119437377
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|a 1786301202
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|a TS171.95
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1 |
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|a André, Jean-Claude
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|a From additive manufacturing to 3D/4D printing, 2: Current techniques, improvements and their limitations
|c Jean-Claude André
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|a London, UK
|b ISTE
|c 2017
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| 300 |
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|a 1 online resource
|b color illustrations
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|a Favored spheres of innovation -- How to know where we must anticipate this technology? -- Opportunities -- Some conditions to ensure additive manufacturing reaches maturity? -- Moreover where does additive manufacturing sit within this interdisciplinarity framework? -- Observations -- Some possible solutions? --Proposed solutions? -- A positive conclusion -- Bibliography -- Chapter 5. Questions of Hope and "Unhope" -- The "lab-tribe" (LT) approach -- Context elements -- From Additive Manufacturing to 3D/4D Printing -- Some results -- Scientific excellence" -- Financing and the orientation of research -- Prospective opportunities for the research unit -- Collective projects? Risky projects? -- Creativity's place in research -- Support to creativity? -- But all the same, strong brakes on creativity -- What to do? -- Innovation, a consequence of creativity -- Academic system -- Between productions resulting from science and responsible conscience --
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|a Includes bibliographical references and index
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|a Engagement toward a future focused on innovation? -- Caught between two chairs? Between more than two chairs? -- Innovation as scientific production: is it born of freedom? What freedom? -- What solutions to evoke for additive manufacturing? -- General framing -- And if the history of additive manufacturing in France were examined in light of these comments? -- A bit of creativity? -- In the form of a conclusion: a summary of the author's point of view -- Bibliography -- Conclusion -- Index
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|a Comment 1: LIFT process (Laser-Induced Forward Transfer) -- Comment 2: FEBID process (Focused Electron Beam Induced Deposition) -- Other methods -- Hybrid methods -- Conclusive outcomes -- The converse problem: a potential æ-fluidics application to additive manufacturing -- 3D sintering -- Deposition of polymerized particles -- Provisional concept --Chapter 3. 3D Nanomanufacturing, 3D æ-Electronics and æ-Robotics -- 3D nano-facturing -- Smart material: so-called "DNA origami" -- Return from additive manufacturing to standard methods --Comment: nanomaterials and additive manufacturing -- Conclusion -- 3D æ-electronics -- 2D or 3D electronic circuits -- Subtractive/additive coupling -- æ-Electronics -- Conclusion and aspirations in the sphere -- Actuators and æ-robots -- Conclusion -- Bibliography -- Part 3. How Should We Go That One Step Further? Chapter 4. A Short Reflection on Spheres to Explore Their Conditions for Achieving Success -- Introduction --
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|a Part 1. Incremental Innovations and Technologies Pushed to their Limits -- Chapter 1. Incremental Developments of Processes, Machines and Materials -- Undertaking non-layered stereolithography -- Optimizing the light supply within a single-photon process -- Transparent window -- Gaseous interface -- Simultaneous two-photon absorption -- Challenging the notion of layers -- Addition of prefabricated structures -- Proof of concept -- Synthesis -- Optical-quality surface finish -- Glasses lenses and contact lenses -- From Additive Manufacturing to 3D/4D Printing -- Microlenses -- Direct lens manufacture --Multi-mode optical fiber -- Cold-cast metal 3D printing -- Electrolytic deposition -- Metallic ink -- Laser processes -- Photochemistry -- Silver metal -- Conducting polymers -- Colored objects -- Part 2. Additive Manufacturing Pushed to its Limits -- Chapter 2. æ-Fluidics (or Microfluidics) -- Review of microfluidics -- Applications -- Return to additive manufacturing --
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|a Printing, Three-Dimensional
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|a Impression tridimensionnelle
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|a Manufacturing processes / fast
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|a Three-dimensional printing / fast
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|a Fabrication
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|a Matériaux / Innovations
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|a Manufacturing processes / http://id.loc.gov/authorities/subjects/sh85080664
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|a manufacturing / aat
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|a Three-dimensional printing / http://id.loc.gov/authorities/subjects/sh2009006799
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|a Materials / Technological innovations / fast
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|a TECHNOLOGY & ENGINEERING / Mechanical / bisacsh
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|a 3-D printing / aat
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|a Materials / Technological innovations
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|a eng
|2 ISO 639-2
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| 989 |
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|b OREILLY
|a O'Reilly
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| 490 |
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|a Systems and industrial engineering - robotics series
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| 776 |
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|z 1119437377
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| 776 |
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|z 9781119437376
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| 776 |
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|z 9781119428299
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| 776 |
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|z 1119428297
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| 776 |
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|z 9781786301208
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| 856 |
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|u https://learning.oreilly.com/library/view/~/9781786301208/?ar
|x Verlag
|3 Volltext
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|a 658
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|a 621.9/88
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|a 620
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|a 338
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|a Additive manufacturing, which was first invented in France and then applied in the United States, is now 33 years old and represents a market of around 5 billion euros per year, with annual growth of between 20 and 30%. Today, additive manufacturing is experiencing a great amount of innovation in its processes, software, engineering and materials used. Its strength as a process has more recently allowed for the exploration of new niches, ranging from applications at nanometer and decameter scales, to others in mechanics and health. As a result, the limitations of the process have also begun to emerge, which include the quality of the tools, their cost of manufacture, the multi-material aspects, functionalities and surface conditions. Volume 2 of this series presents the current techniques, improvements and limits of additive manufacturing, providing an up-to-date review of this process
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