Encyclopedia of Glass Science, Technology, History, and Culture
2 Volume Set
1. Auflage Mai 2021
1568 Seiten, Hardcover
Monographie
ISBN:
978-1-118-79942-0
John Wiley & Sons
Weitere Versionen
Umfassende und aktuelle Enzyklopädie rund um Herstellung, Besonderheiten, Eigenschaften, Einsatzbereiche und Geschichte von Glas
Die Encyclopedia of Glass Science, Technology, History, and Culture wird den Anforderungen und Interessen einer breiten Leserschaft gerecht, die sich für die vielfältigen Aspekte eines des ältesten, von der Menschheit genutzten Materials interessiert. Über 100 Kapitel und 1100 Abbildungen spiegeln die praktische und über die Zeit gewachsene Bedeutung von Glas wider, seit vor 4000 Jahren Glas zum ersten Mal hergestellt wurde. Uralte Glasgefäße, Fenster und Buntglas gehen eine Koexistenz mit neuen Hightech-Produkten ein, die beispielsweise aus Glasfasern, Dünnfilmen, metallischem, bioaktivem oder Hybridglas mit organischen und anorganischen Anteilen, amorphem Eis oder Feststoffbatterien bestehen.
Preface
General introduction, Pascal Richet, Reinhard Conradt and Akira Takada
I. Glassmaking
Introduction
1.1. Glass production: an overview, Reinhard Conradt
1.2. Raw materials for glass making: Properties and constraints, Simonpietro Di Pierro
1.3. Fusion of glass, Reinhard Conradt
1.4. Primary fabrication of flat glass, Toru Kamihori
1.5. Fabrication of glass containers, Christian Roos
1.6. Continuous glass fibers for reinforcement, Hong Li and James C. Watson
1.7. Simulation in glass processes, Patrick J. Prescott and Bruno Purnode
II. Structure of glass
Introduction
2.1. Basic concepts of network glass structure, Alex C. Hannon
2.2. Structural probes of glass, Grant S. Henderson
2.3. Microstructure analysis of glasses and glass ceramics, Christian Patzig and Thomas Höche
2.4. Short-range structure and order in oxide glasses, Jonathan F. Stebbins
2.5. The extended structure of glass, Neville G. Greaves
2.6. Structure of chemically complex silicate systems, Bjorn Mysen
2.7. Topological constraint theory of inorganic glasses, Prabhat K. Gupta
2.8. Atomistic simulations of glass structure and properties, Akira Takada
2.9. First-principles simulations of glass formers, Walter Kob and Simona Ispas
3. Physics of glass
Introduction
3.1. Glass formation, Michael I. Ojovan
3.2. Thermodynamics of glasses, Jean-Luc Garden and Hervé Guillou
3.3. The glass transition and the entropy crisis, Purushottam D. Gujrati
3.4. Atomic vibrations in glasses, Bernard Hehlen and Benoît Rufflé
3.5. Density of amorphous oxides, Michael J. Toplis
3.6. Thermodynamic properties of oxide glasses and melts, Pascal Richet and Dominique de Ligny
3.7. Structural, shear and stress relaxation in glass-forming liquids, Ulrich Fotheringham
3.8. Hyperquenched glasses: relaxation and properties, Yuanzheng Yue
3.9. Polyamorphism and liquid-liquid phase transitions, Paul F. McMillan and Martin C. Wilding
3.10. Pressure-induced amorphization, Paul F. McMillan, Denis Machon and Martin C. Wilding
3.11. Mechanical properties of inorganic glasses, Russel J. Hand
3.12. Strengthening of oxide glasses, K. Stefan R. Karlsson and Lothar Wondraczek
3.13. Radiation effects in glass, Nadège Ollier, Sylvain Girard and Sylvain Peuget
3.14. Amorphous ices, Robert F. Tournier
4. Transport properties
Introduction
4.1. Viscosity of glass-forming melts, Joachim Deubener
4.2. Ionic and electronic transport, Jean-Louis Souquet
4.3. Diffusion in oxide glass-forming systems, Huaiwei Ni and Nico De Koker
4.4. Chemical diffusion in multicomponent glass-forming systems, Mathieu Roskosz and Emmanuelle Gouillart
4.5. Thermal diffusivity and conductivity of glasses and melts, Anne Hofmeister and Alan Whittington
4.6. Atomistic simulations of transport properties, Junko Habasaki
5. Chemistry of glass
Introduction
5.1. Chemical analyses and characterization of glass, Thomas Bach, Reiner Haus and Sebastian Prinz
5.2. Phase equilibria and phase diagrams in oxide systems, Ilya Veksler
5.3. Thermodynamic models of oxide melts, Giulio Ottonello
5.4. Nucleation, growth, and crystallization in inorganic glasses, Edgar D. Zanotto, Jürn W.P. Schmelzer and Vladimir Fokin
5.5. Solubility of volatiles, Bjorn Mysen
5.6. Redox thermodynamics and kinetics in silicate melts and glasses, Reid F. Cooper
5.7. Optical basicity: Theory and application, John A. Duffy
5.8. The glass electrode and electrode properties of glass, Anatolii A. Belyustin and Irina S. Ivanovskaya
5.9. Electrochemistry of oxide melts, Christian Rüssel
5.10. Glass-metal interactions, Carine Petitjean, Pierre-Jean Panteix, Christophe Rapin, Michel Vilasi, Éric Schmucker and Renaud Podor
5.11. Durability of commercial-type glasses, Marie-Hélène Chopinet, Hervé Montigaud, Patrice Lehuédé and Sylvie Abensour
5.12. Mechanisms of glass corrosion by aqueous solutions, Roland Hellmann
6. Glass and light
Introduction
6.1. Optical glasses, Alix Clare
6.2. The color of glass, Georges Calas, Laurent Cormier and Laurence Galoisy
6.3. Photoluminescence in glasses, Lothar Wondraczek
6.4. Optical fibers, John Ballato
6.5. Fluoride and chalcogenide glasses for mid-infrared optics, Bruno Bureau and Jacques Lucas
6.6. Optoelectronics: Active chalcogenide glasses, Jong Heo and Kai Xu
6.7. Modification technologies of glass surfaces, Ilkay Sökmen, Sener Oktik and Klaus Bange
6.8. Thin-film technologies for glass surfaces, Sener Oktik, Ilkay Sökmen and Klaus Bange
6.9. Glass for lighting, Hiroki Yamazaki and Shigeru Yamamoto
6.10. Screens and displays, Kei Maeda
7. Inorganic glass families
Introduction
7.1. Extraterrestrial glasses, Guy Libourel
7.2. Geological glasses, Cristina P. de Campos and Kai-Uwe Hess
7.3. Corrosion of natural glasses in seawater, Roland Hellmann
7.4. Metallurgical slags, Kenneth C. Mills
7.5. Water glass, Hans Roggendorf
7.6. Borosilicate glasses, Randall E. Youngman
7.7. Glass for pharmaceutical use, Daniele Zuccato and Emanuel Guadagnino
7.8. Oxynitride glasses, Stuart Hampshire and Michael J. Pomeroy
7.9. Phosphate glasses, Andrew James Parsons
7.10. Bulk metallic glasses, Dmitri V. Louzguine-Luzgin and Akihisa Inoue
7.11. Glass-ceramics, Monique Comte
8. Organically related glasses
Introduction
8.1. Biogenic silica glasses, Jacques Livage and Pascal Jean Lopez
8.2. Sol-gel processes and products, Rui M. Almeida and M. Clara Gonçalves
8.3. Silica aerogels, Wim J. Malfait, Jannis Wernery, Shanyu Zhao, Samuel Brunner and Matthias M. Koebel
8.4. Bioactive glasses, Delia S. Brauer and Julian R. Jones
8.5. Dental glass-ceramics, Wolfram Höland and Marcel Schweiger
8.6. Relaxation processes in molecular liquids, Thomas Blochowicz, Ernst A. Rössler and Michael Vogel
8.7. Physics of polymer glasses, Jean-Pierre Cohen-Addad
8.8. Introduction to polymer chemistry, Oliver Weichold
8.9. Hybrid inorganic-organic polymers, Karl-Heinz Haas and Gerhard Schottner
9. Environmental and other issues
Introduction
9.1. Structural glass in architecture, Freek Bos and Christian Louter
9.2. Tempered and laminated glazing for cars, René Gy.
9.3. Stone and glass wool, Yuanzheng Yue and Mette Solvang
9.4. Glass for solar-energy technologies, Joachim Deubener and Gundula Helsh
9.5. Sulfide glass electrolytes for all-solid-state batteries, Akitoshi Hayashi and Masahiro Tatsumisago
9.6. The world of the flat-glass industry; Key milestones, current status and future trends, Bernard J. Savaëte
9.7. Design and operation of glass furnaces, Christoph Jatzwauk
9.8. Physics and modeling of glass furnaces, Reinhard Conradt and Erik Muijsenberg
9.9. Glass cullet: Sources, uses and environmental benefits, Nicola Favaro and Stefano Ceola
9.10. Immobilization of domestic and industrial waste, Soraya Heuss-Aßbichler and Athanasius P. Bayuseno
9.11. Nuclear waste vitrification, Olivier Pinet, Étienne Vernaz, Christian Ladirat and Stéphane Gin
9.12. The International Commisssion on Glass (ICG), John M. Parker
10. History of glass
Introduction
10.1. Obsidian in Prehistory, Robert H. Tykot
10.2. Ancient glass, Late Bronze Age, Andrew J. Shortland and Patrick Degryse
10.3. Roman glass, Ian C. Freestone
10.4. Glass and the philosophy of matter in Antiquity, Marco Beretta
10.5. Ancient glassworking, E. Marianne Stern
10.6. Glazes and enamels, Philippe Colomban
10.7. Venetian glass, Marco Verità
10.8. Stained glass windows, John M. Parker and David Martlew
10.9. Furnaces and glassmaking processes: From ancient tradition to modernity, Marie-Hélène Chopinet and Pascal Richet
10.10. Glass, the wonder maker of science, Pascal Richet
10.11. A history of glass science, Pascal Richet
10.12. Glass museums, Dedo von Kerssenbrock-Krosigk
11. Postface: A personal retrospective, C. Austen Angell
List of contributors
Index
General introduction, Pascal Richet, Reinhard Conradt and Akira Takada
I. Glassmaking
Introduction
1.1. Glass production: an overview, Reinhard Conradt
1.2. Raw materials for glass making: Properties and constraints, Simonpietro Di Pierro
1.3. Fusion of glass, Reinhard Conradt
1.4. Primary fabrication of flat glass, Toru Kamihori
1.5. Fabrication of glass containers, Christian Roos
1.6. Continuous glass fibers for reinforcement, Hong Li and James C. Watson
1.7. Simulation in glass processes, Patrick J. Prescott and Bruno Purnode
II. Structure of glass
Introduction
2.1. Basic concepts of network glass structure, Alex C. Hannon
2.2. Structural probes of glass, Grant S. Henderson
2.3. Microstructure analysis of glasses and glass ceramics, Christian Patzig and Thomas Höche
2.4. Short-range structure and order in oxide glasses, Jonathan F. Stebbins
2.5. The extended structure of glass, Neville G. Greaves
2.6. Structure of chemically complex silicate systems, Bjorn Mysen
2.7. Topological constraint theory of inorganic glasses, Prabhat K. Gupta
2.8. Atomistic simulations of glass structure and properties, Akira Takada
2.9. First-principles simulations of glass formers, Walter Kob and Simona Ispas
3. Physics of glass
Introduction
3.1. Glass formation, Michael I. Ojovan
3.2. Thermodynamics of glasses, Jean-Luc Garden and Hervé Guillou
3.3. The glass transition and the entropy crisis, Purushottam D. Gujrati
3.4. Atomic vibrations in glasses, Bernard Hehlen and Benoît Rufflé
3.5. Density of amorphous oxides, Michael J. Toplis
3.6. Thermodynamic properties of oxide glasses and melts, Pascal Richet and Dominique de Ligny
3.7. Structural, shear and stress relaxation in glass-forming liquids, Ulrich Fotheringham
3.8. Hyperquenched glasses: relaxation and properties, Yuanzheng Yue
3.9. Polyamorphism and liquid-liquid phase transitions, Paul F. McMillan and Martin C. Wilding
3.10. Pressure-induced amorphization, Paul F. McMillan, Denis Machon and Martin C. Wilding
3.11. Mechanical properties of inorganic glasses, Russel J. Hand
3.12. Strengthening of oxide glasses, K. Stefan R. Karlsson and Lothar Wondraczek
3.13. Radiation effects in glass, Nadège Ollier, Sylvain Girard and Sylvain Peuget
3.14. Amorphous ices, Robert F. Tournier
4. Transport properties
Introduction
4.1. Viscosity of glass-forming melts, Joachim Deubener
4.2. Ionic and electronic transport, Jean-Louis Souquet
4.3. Diffusion in oxide glass-forming systems, Huaiwei Ni and Nico De Koker
4.4. Chemical diffusion in multicomponent glass-forming systems, Mathieu Roskosz and Emmanuelle Gouillart
4.5. Thermal diffusivity and conductivity of glasses and melts, Anne Hofmeister and Alan Whittington
4.6. Atomistic simulations of transport properties, Junko Habasaki
5. Chemistry of glass
Introduction
5.1. Chemical analyses and characterization of glass, Thomas Bach, Reiner Haus and Sebastian Prinz
5.2. Phase equilibria and phase diagrams in oxide systems, Ilya Veksler
5.3. Thermodynamic models of oxide melts, Giulio Ottonello
5.4. Nucleation, growth, and crystallization in inorganic glasses, Edgar D. Zanotto, Jürn W.P. Schmelzer and Vladimir Fokin
5.5. Solubility of volatiles, Bjorn Mysen
5.6. Redox thermodynamics and kinetics in silicate melts and glasses, Reid F. Cooper
5.7. Optical basicity: Theory and application, John A. Duffy
5.8. The glass electrode and electrode properties of glass, Anatolii A. Belyustin and Irina S. Ivanovskaya
5.9. Electrochemistry of oxide melts, Christian Rüssel
5.10. Glass-metal interactions, Carine Petitjean, Pierre-Jean Panteix, Christophe Rapin, Michel Vilasi, Éric Schmucker and Renaud Podor
5.11. Durability of commercial-type glasses, Marie-Hélène Chopinet, Hervé Montigaud, Patrice Lehuédé and Sylvie Abensour
5.12. Mechanisms of glass corrosion by aqueous solutions, Roland Hellmann
6. Glass and light
Introduction
6.1. Optical glasses, Alix Clare
6.2. The color of glass, Georges Calas, Laurent Cormier and Laurence Galoisy
6.3. Photoluminescence in glasses, Lothar Wondraczek
6.4. Optical fibers, John Ballato
6.5. Fluoride and chalcogenide glasses for mid-infrared optics, Bruno Bureau and Jacques Lucas
6.6. Optoelectronics: Active chalcogenide glasses, Jong Heo and Kai Xu
6.7. Modification technologies of glass surfaces, Ilkay Sökmen, Sener Oktik and Klaus Bange
6.8. Thin-film technologies for glass surfaces, Sener Oktik, Ilkay Sökmen and Klaus Bange
6.9. Glass for lighting, Hiroki Yamazaki and Shigeru Yamamoto
6.10. Screens and displays, Kei Maeda
7. Inorganic glass families
Introduction
7.1. Extraterrestrial glasses, Guy Libourel
7.2. Geological glasses, Cristina P. de Campos and Kai-Uwe Hess
7.3. Corrosion of natural glasses in seawater, Roland Hellmann
7.4. Metallurgical slags, Kenneth C. Mills
7.5. Water glass, Hans Roggendorf
7.6. Borosilicate glasses, Randall E. Youngman
7.7. Glass for pharmaceutical use, Daniele Zuccato and Emanuel Guadagnino
7.8. Oxynitride glasses, Stuart Hampshire and Michael J. Pomeroy
7.9. Phosphate glasses, Andrew James Parsons
7.10. Bulk metallic glasses, Dmitri V. Louzguine-Luzgin and Akihisa Inoue
7.11. Glass-ceramics, Monique Comte
8. Organically related glasses
Introduction
8.1. Biogenic silica glasses, Jacques Livage and Pascal Jean Lopez
8.2. Sol-gel processes and products, Rui M. Almeida and M. Clara Gonçalves
8.3. Silica aerogels, Wim J. Malfait, Jannis Wernery, Shanyu Zhao, Samuel Brunner and Matthias M. Koebel
8.4. Bioactive glasses, Delia S. Brauer and Julian R. Jones
8.5. Dental glass-ceramics, Wolfram Höland and Marcel Schweiger
8.6. Relaxation processes in molecular liquids, Thomas Blochowicz, Ernst A. Rössler and Michael Vogel
8.7. Physics of polymer glasses, Jean-Pierre Cohen-Addad
8.8. Introduction to polymer chemistry, Oliver Weichold
8.9. Hybrid inorganic-organic polymers, Karl-Heinz Haas and Gerhard Schottner
9. Environmental and other issues
Introduction
9.1. Structural glass in architecture, Freek Bos and Christian Louter
9.2. Tempered and laminated glazing for cars, René Gy.
9.3. Stone and glass wool, Yuanzheng Yue and Mette Solvang
9.4. Glass for solar-energy technologies, Joachim Deubener and Gundula Helsh
9.5. Sulfide glass electrolytes for all-solid-state batteries, Akitoshi Hayashi and Masahiro Tatsumisago
9.6. The world of the flat-glass industry; Key milestones, current status and future trends, Bernard J. Savaëte
9.7. Design and operation of glass furnaces, Christoph Jatzwauk
9.8. Physics and modeling of glass furnaces, Reinhard Conradt and Erik Muijsenberg
9.9. Glass cullet: Sources, uses and environmental benefits, Nicola Favaro and Stefano Ceola
9.10. Immobilization of domestic and industrial waste, Soraya Heuss-Aßbichler and Athanasius P. Bayuseno
9.11. Nuclear waste vitrification, Olivier Pinet, Étienne Vernaz, Christian Ladirat and Stéphane Gin
9.12. The International Commisssion on Glass (ICG), John M. Parker
10. History of glass
Introduction
10.1. Obsidian in Prehistory, Robert H. Tykot
10.2. Ancient glass, Late Bronze Age, Andrew J. Shortland and Patrick Degryse
10.3. Roman glass, Ian C. Freestone
10.4. Glass and the philosophy of matter in Antiquity, Marco Beretta
10.5. Ancient glassworking, E. Marianne Stern
10.6. Glazes and enamels, Philippe Colomban
10.7. Venetian glass, Marco Verità
10.8. Stained glass windows, John M. Parker and David Martlew
10.9. Furnaces and glassmaking processes: From ancient tradition to modernity, Marie-Hélène Chopinet and Pascal Richet
10.10. Glass, the wonder maker of science, Pascal Richet
10.11. A history of glass science, Pascal Richet
10.12. Glass museums, Dedo von Kerssenbrock-Krosigk
11. Postface: A personal retrospective, C. Austen Angell
List of contributors
Index
"...a rich compendium of information spanning a vast number of aspects of the use of glass as a material...Many readers will find the content--especially many of the diagrams--quite useful in their work or even as new, additional subject matter for lectures and presentations...The work is indeed encyclopedic in its topical coverage, making the volumes extremely important if not indispensable...the reader should explore the information in this wonderful set of books as needed, looking up unknown material as it arises in relevant chapters."
Dr. Mario Affatigato, Editor in Chief, International Journal of Applied Glass Science. Ceramics Bulletin, June 2021
Dr. Mario Affatigato, Editor in Chief, International Journal of Applied Glass Science. Ceramics Bulletin, June 2021
Pascal Richet is a senior physicist at the Institut de Physique du Globe de Paris and has strong ties with Ludwig-Maximilians-Universität in Munich. He is mainly interested in the physical and chemical properties of Earth's and industrial materials at high temperatures and pressures. He has also published The Physical Basis of Thermodynamics (Plenum, 2001), Silicate Glasses and Melts (Elsevier, 2nd ed. 2018, with B.O. Mysen), as well as books dealing with either popularization or history and philosophy of science, which include A Natural History of Time (The University of Chicago Press, 2007). Among other honors, he has received in 2006 the Morey award of the American Ceramic Society.
