New carbons: control of structure and functions
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam ; New York
Elsevier Science
2000
|
| Ausgabe: | 1st ed |
| Schlagworte: | |
| Beschreibung: | Print version record |
| Beschreibung: | 1 online resource (ix, 229 pages) illustrations |
| ISBN: | 9780080437132 0080437133 9780080525709 0080525709 |
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| 505 | 8 | |a The discovery of fullerenes and nanotubes has greatly stimulated the interest of scientists and engineers in carbon materials, and has resulted in much scientific research. These materials have provided us with many interesting ideas and potential applications, some of them practical and some simply dreams for the future. In the early 1960s, carbon fibers, glass-like carbons and pyrolytic carbons were developed which were quite different from the carbon materials that had previously been used. Carbon fibers exhibited surprisingly good mechanical properties, glass-like carbons exhibited brittle fracture resulting in a conchoidal fracture surface similar to sodium glass, and giving no carbon dust, and pyrolytic carbons were produced by a new production process of chemical vapour deposition and showed very high anisotropy. | |
| 505 | 8 | |a These carbons materials made a great impact not only on the carbon community who had been working on carbon materials but also on people working in the fields of materials science and engineering. They were used to develop a variety of new applications in technological fields, such as semiconductors, microelectronics, aerospace and high temperature, etc. These newly developed carbon materials were called NEW CARBONS, in comparison with carbon materials such as artificial graphites represented by graphite electrodes, carbon blacks and activated carbons, which maybe thought of as CLASSICAL CARBONS. Later, other new carbons, such as activated carbons and those with novel functions, isotropic high-density graphites, intercalation compounds, various composites, etc., were developed. | |
| 505 | 8 | |a In 1994, Professor Michio Inagaki published a book entitled "New Carbon Materials & mdash; Structure and Functions" with his friend Professor Yoshihiro Hishiyama of Musashi Institute of Technology, published by Gihoudou Shuppan in Japanese. However, progress in the fields of these new carbons is so rapid that the previous book is already out of date. For this reason the author has decided to write an English text on New Carbons. The text focuses on New Carbons based on hexagonal networks of carbon-atoms, i.e. graphite-related materials. The fundamental concept underlying this book is that the structure and functions of these materials are principally governed by their texture. The aim is to give readers a comprehensive understanding of New Carbons through the description of their structure and texture, along with the properties that are largely dependent on them | |
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Datensatz im Suchindex
| _version_ | 1804179158936322048 |
|---|---|
| any_adam_object | |
| author | Inagaki, Michio |
| author_facet | Inagaki, Michio |
| author_role | aut |
| author_sort | Inagaki, Michio |
| author_variant | m i mi |
| building | Verbundindex |
| bvnumber | BV045341831 |
| collection | ZDB-4-ENC |
| contents | The discovery of fullerenes and nanotubes has greatly stimulated the interest of scientists and engineers in carbon materials, and has resulted in much scientific research. These materials have provided us with many interesting ideas and potential applications, some of them practical and some simply dreams for the future. In the early 1960s, carbon fibers, glass-like carbons and pyrolytic carbons were developed which were quite different from the carbon materials that had previously been used. Carbon fibers exhibited surprisingly good mechanical properties, glass-like carbons exhibited brittle fracture resulting in a conchoidal fracture surface similar to sodium glass, and giving no carbon dust, and pyrolytic carbons were produced by a new production process of chemical vapour deposition and showed very high anisotropy. These carbons materials made a great impact not only on the carbon community who had been working on carbon materials but also on people working in the fields of materials science and engineering. They were used to develop a variety of new applications in technological fields, such as semiconductors, microelectronics, aerospace and high temperature, etc. These newly developed carbon materials were called NEW CARBONS, in comparison with carbon materials such as artificial graphites represented by graphite electrodes, carbon blacks and activated carbons, which maybe thought of as CLASSICAL CARBONS. Later, other new carbons, such as activated carbons and those with novel functions, isotropic high-density graphites, intercalation compounds, various composites, etc., were developed. In 1994, Professor Michio Inagaki published a book entitled "New Carbon Materials & mdash; Structure and Functions" with his friend Professor Yoshihiro Hishiyama of Musashi Institute of Technology, published by Gihoudou Shuppan in Japanese. However, progress in the fields of these new carbons is so rapid that the previous book is already out of date. For this reason the author has decided to write an English text on New Carbons. The text focuses on New Carbons based on hexagonal networks of carbon-atoms, i.e. graphite-related materials. The fundamental concept underlying this book is that the structure and functions of these materials are principally governed by their texture. The aim is to give readers a comprehensive understanding of New Carbons through the description of their structure and texture, along with the properties that are largely dependent on them |
| ctrlnum | (ZDB-4-ENC)ocn162130932 (OCoLC)162130932 (DE-599)BVBBV045341831 |
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| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 620 - Engineering and allied operations |
| dewey-raw | 620.1/93 |
| dewey-search | 620.1/93 |
| dewey-sort | 3620.1 293 |
| dewey-tens | 620 - Engineering and allied operations |
| edition | 1st ed |
| format | Electronic eBook |
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| id | DE-604.BV045341831 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T08:15:26Z |
| institution | BVB |
| isbn | 9780080437132 0080437133 9780080525709 0080525709 |
| language | English |
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| spelling | Inagaki, Michio Verfasser aut New carbons control of structure and functions Michio Inagaki 1st ed Amsterdam ; New York Elsevier Science 2000 1 online resource (ix, 229 pages) illustrations txt rdacontent c rdamedia cr rdacarrier Print version record The discovery of fullerenes and nanotubes has greatly stimulated the interest of scientists and engineers in carbon materials, and has resulted in much scientific research. These materials have provided us with many interesting ideas and potential applications, some of them practical and some simply dreams for the future. In the early 1960s, carbon fibers, glass-like carbons and pyrolytic carbons were developed which were quite different from the carbon materials that had previously been used. Carbon fibers exhibited surprisingly good mechanical properties, glass-like carbons exhibited brittle fracture resulting in a conchoidal fracture surface similar to sodium glass, and giving no carbon dust, and pyrolytic carbons were produced by a new production process of chemical vapour deposition and showed very high anisotropy. These carbons materials made a great impact not only on the carbon community who had been working on carbon materials but also on people working in the fields of materials science and engineering. They were used to develop a variety of new applications in technological fields, such as semiconductors, microelectronics, aerospace and high temperature, etc. These newly developed carbon materials were called NEW CARBONS, in comparison with carbon materials such as artificial graphites represented by graphite electrodes, carbon blacks and activated carbons, which maybe thought of as CLASSICAL CARBONS. Later, other new carbons, such as activated carbons and those with novel functions, isotropic high-density graphites, intercalation compounds, various composites, etc., were developed. In 1994, Professor Michio Inagaki published a book entitled "New Carbon Materials & mdash; Structure and Functions" with his friend Professor Yoshihiro Hishiyama of Musashi Institute of Technology, published by Gihoudou Shuppan in Japanese. However, progress in the fields of these new carbons is so rapid that the previous book is already out of date. For this reason the author has decided to write an English text on New Carbons. The text focuses on New Carbons based on hexagonal networks of carbon-atoms, i.e. graphite-related materials. The fundamental concept underlying this book is that the structure and functions of these materials are principally governed by their texture. The aim is to give readers a comprehensive understanding of New Carbons through the description of their structure and texture, along with the properties that are largely dependent on them TECHNOLOGY & ENGINEERING / Material Science bisacsh Carbon fast Carbon composites fast Graphite fast Grafiet gtt Koolstofvezels gtt Koolstofcomposieten gtt Kohlenstoffwerkstoff gnd Carbon Graphite Carbon composites Kohlenstoffwerkstoff (DE-588)4031677-4 gnd rswk-swf Kohlenstoffwerkstoff (DE-588)4031677-4 s 1\p DE-604 Erscheint auch als Druck-Ausgabe Inagaki, Michio New carbons 1st ed Amsterdam ; New York : Elsevier Science, 2000 0080437133 9780080437132 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Inagaki, Michio New carbons control of structure and functions The discovery of fullerenes and nanotubes has greatly stimulated the interest of scientists and engineers in carbon materials, and has resulted in much scientific research. These materials have provided us with many interesting ideas and potential applications, some of them practical and some simply dreams for the future. In the early 1960s, carbon fibers, glass-like carbons and pyrolytic carbons were developed which were quite different from the carbon materials that had previously been used. Carbon fibers exhibited surprisingly good mechanical properties, glass-like carbons exhibited brittle fracture resulting in a conchoidal fracture surface similar to sodium glass, and giving no carbon dust, and pyrolytic carbons were produced by a new production process of chemical vapour deposition and showed very high anisotropy. These carbons materials made a great impact not only on the carbon community who had been working on carbon materials but also on people working in the fields of materials science and engineering. They were used to develop a variety of new applications in technological fields, such as semiconductors, microelectronics, aerospace and high temperature, etc. These newly developed carbon materials were called NEW CARBONS, in comparison with carbon materials such as artificial graphites represented by graphite electrodes, carbon blacks and activated carbons, which maybe thought of as CLASSICAL CARBONS. Later, other new carbons, such as activated carbons and those with novel functions, isotropic high-density graphites, intercalation compounds, various composites, etc., were developed. In 1994, Professor Michio Inagaki published a book entitled "New Carbon Materials & mdash; Structure and Functions" with his friend Professor Yoshihiro Hishiyama of Musashi Institute of Technology, published by Gihoudou Shuppan in Japanese. However, progress in the fields of these new carbons is so rapid that the previous book is already out of date. For this reason the author has decided to write an English text on New Carbons. The text focuses on New Carbons based on hexagonal networks of carbon-atoms, i.e. graphite-related materials. The fundamental concept underlying this book is that the structure and functions of these materials are principally governed by their texture. The aim is to give readers a comprehensive understanding of New Carbons through the description of their structure and texture, along with the properties that are largely dependent on them TECHNOLOGY & ENGINEERING / Material Science bisacsh Carbon fast Carbon composites fast Graphite fast Grafiet gtt Koolstofvezels gtt Koolstofcomposieten gtt Kohlenstoffwerkstoff gnd Carbon Graphite Carbon composites Kohlenstoffwerkstoff (DE-588)4031677-4 gnd |
| subject_GND | (DE-588)4031677-4 |
| title | New carbons control of structure and functions |
| title_auth | New carbons control of structure and functions |
| title_exact_search | New carbons control of structure and functions |
| title_full | New carbons control of structure and functions Michio Inagaki |
| title_fullStr | New carbons control of structure and functions Michio Inagaki |
| title_full_unstemmed | New carbons control of structure and functions Michio Inagaki |
| title_short | New carbons |
| title_sort | new carbons control of structure and functions |
| title_sub | control of structure and functions |
| topic | TECHNOLOGY & ENGINEERING / Material Science bisacsh Carbon fast Carbon composites fast Graphite fast Grafiet gtt Koolstofvezels gtt Koolstofcomposieten gtt Kohlenstoffwerkstoff gnd Carbon Graphite Carbon composites Kohlenstoffwerkstoff (DE-588)4031677-4 gnd |
| topic_facet | TECHNOLOGY & ENGINEERING / Material Science Carbon Carbon composites Graphite Grafiet Koolstofvezels Koolstofcomposieten Kohlenstoffwerkstoff Carbon Graphite Carbon composites |
| work_keys_str_mv | AT inagakimichio newcarbonscontrolofstructureandfunctions |