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El. knyga: Additive Manufacturing of Glass: From Science to Applications

Edited by (Laboratory of Process Technology, Department of Microsystems Engineering (IMTEK), University of Freiburg, Germa), Edited by (Head of Group, Institute of Microstructure Technology (IMT), Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany)
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Additive Manufacturing and 3D Printing of Glass: From Science to Applications presents a joint effort by the global glass 3D printing community, highlighting the current scientific, technological and application aspects of this exciting new field and its game changing potential for a wide array of industries in the coming decades. This text examines glass as the high-performance material of the 21st century—utilized in industries from high-performance computing to IT, architecture, labware and integrated optical devices for smart phones.
  • Offers comprehensive work on the use of additive manufacturing and 3D printing technologies to produce glass products
  • Features content authored by experts within both academic research and industry
  • Presents the basic science behind AM techniques as well as the commercialization of glass components

Part 1: Introduction 1. What are glasses?
2. The history of glass processing
3. 3D Printing Technologies
4. Additive Manufacturing: Market potential

Part 2: Melt derived glass 3D printing
5. Selective Laser Melting
6. Fused Deposition Modeling

Part 3: Sol-gel chemistry
7. Glasses by sol-gel chemistry
8. Direct ink deposition techniques
9. Photochemical approaches

Part 4: Etching based approached
10. Etching based glass structuring
11. Multiphoton-based etching

Part 5: Particle- and feedstock-based approaches
12. Slurry-based glass fabrication/3D printing
13. Glassomer process
14. Direct ink deposition techniques

Part 6: Applications and markets
15. Company technology and markets: FemtoPrint
16. Company technology and markets: LightFab
17. Company technology and markets: Micron3DP
18. Bioactive glasses
19. Architecture
20. Next-generation (micro-)optic
21. Glass Fiber fabrication
22. Lab-on-a-Chip

Prof. Dr.-Ing. Bastian E. Rapp is a full professor of process technology at the Department of Microsystems Engineering (IMTEK) and the head of the NeptunLab, University of Freiburg, Germany. For his work, he was awarded, among others, the Edison Prize of the General Electric (GE) Foundation, the GMM award, and the Südwestmetall-Förderpreis. In 2019, he received an ERC Consolidator Grant from the European Research Council for his work on tactile displays for the visually impaired. His work has been published in the most important international journals, including Advanced Materials, Angewandte Chemie, Nature, and Science, and has been featured in national and international radio and print media, including the BBC, The New York Times, and the Discovery Channel. In 2021, he was nominated by the German Minister of Research and Education, Anja Karliczek, for the German Future Award of the German President for Technology and Innovation. In 2022, he was nominated for the German Future Award of the German President for Technology and Innovation with his spin-off company Glassomer for the development of a new generation of techniques for high-resolution structuring of glass. His research focuses on the development of novel materials, processes, and applications in microsystem engineering, life sciences, and biotechnology, as well as instrumental and clinical analytics. Dr. Frederik Kotz-Helmer is currently Chief Scientific Officer (CSO) of the company Glassomer (Freiburg, Germany), which commercialized high-resolution 3D printing and injection molding of glasses. His work has been published in the most important journals, such as Nature, Science, and Advanced Materials. His research interests are in nanocomposites, glasses, and ceramics.
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