Description
Additive Manufacturing of Glass: From Science to Applications is a joint effort by the global glass 3D printing community, highlighting the current state of the art, its various applications, as well as its game-changing potential for a wide array of industries in the coming decades. The book starts with separate overviews of glass and additive manufacturing, gradually tying the two together to discuss topics such as melt-derived additive manufacturing of glass, sol-gel chemistry, direct ink deposition techniques, etching-based glass structuring, and slurry-based glass 3D printing. The book then concludes with various case studies and applications for 3D-printed glass, highlighting individual companies producing it and product applications such as bioactive glasses and micro-optics.- Outlines various techniques for additive manufacturing of glass- Includes case studies and applications, highlighting real-world use and commercial opportunities- Covers melt-derived, sol-gel chemistry, photochemical, multiphoton-based etching, and various other additive manufacturing techniques for producing glass
Table of Contents
- Introduction- Digital Glass Forming using Direct Heating Techniques- Sol-gel and Colloidal Glass Processing- Deposition-based, Indirect Glass 3D Printing- Photostructuring of Silicate and Chalcogenide Glasses- Laser-based Approaches for 3D Structuring of Glass- State of the Art Container Glass Forming- 3D Printing of Bioactive Glasses and Glass-Ceramics for Bone Tissues Regeneration- Next Generation Micro Optics- Role and Impact of Glass in Chemistry, Flow Chemistry and Microfluidic Technologies
