Porous Metals with Directional Pores
(Sprache: Englisch)
This book examines the properties of lotus-type porous metals, reviews recently developed fabrication methods and discusses applications. Includes detailed explanations of three casting techniques, discussion of pore size and direction and more.
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This book examines the properties of lotus-type porous metals, reviews recently developed fabrication methods and discusses applications. Includes detailed explanations of three casting techniques, discussion of pore size and direction and more.
Klappentext zu „Porous Metals with Directional Pores “
This book reviews the recent development of fabrication methods and various properties of lotus-type porous metals and their applications. The nucleation and growth mechanism of the directional pores in metals are discussed in comparison with a model experiment of carbon dioxide pores in ice. Three casting techniques are introduced to produce not only metals and alloys but also intermetallic compounds, semiconductors, and ceramics: mold casting, continuous zone melting, and continuous casting. The latter has merits for mass production of lotus metals to control porosity, pore size and pore direction. Furthermore, anisotropic behavior of elastic, mechanical properties, thermal and electrical conductivity, magnetic properties, and biocompatibility are introduced as peculiar features of lotus metals.
This book examines the properties of lotus-type porous metals, reviews recently developed fabrication methods and discusses applications. Includes detailed explanations of three casting techniques, discussion of pore size and direction and more.
Inhaltsverzeichnis zu „Porous Metals with Directional Pores “
1. Introduction2. Various fabrication methods of cellular metals and foamed metals
2.1 Materials definitions
2.2 Various fabrication methods
3. Fabrication methods of porous metals with directional pores
3.1 Historical background
3.2 Mold casting technique
3.3 Continuous zone melting technique
3.4 Continuous casting technique
4. Nucleation and growth mechanism of pores in metals
4.1 Pore nucleation
4.2 Pore growth
4.3 Model experiment on unidirectional solidification of water containing carbon dioxide
5. Control of pore size and porosity in lotus-type porous metals
5.1 Control of pore size by solidification velocity
5.2 Control of pore size and porosity by ambient gas pressure
6. Details of fabrication techniques of various lotus metals and alloys, intermetallic compounds, semiconductors and ceramics using various dissolving gases or moisture
6.1 Fabrication of lotus iron by nitrogen
6.2 Fabrication of lotus silver by oxygen
6.3 Fabrication of lotus nickel by moisture
6.4 Fabrication of lotus intermetallic compounds
6.5 Fabrication of lotus semiconductors
6.6 Fabrication of lotus ceramics
6.7 Fabrication of lotus brass by solid state diffusion
6.8 Effect of microstructure on pore morphology on lotus magnesium alloys
7. Mechanical properties of lotus metals and alloys
7.1 Elastic properties
7.2 Internal friction
7.3 Tensile strength
7.4 Compressive strength
7.4.1 Compressive yield strength
7.4.2 Energy absorption
7.5 Bending strength
7.6 Fatigue strength
8. Various physical properties of lotus metals and alloys
8.1 Sound absorption
8.2 Thermal conductivity
8.2.1 Measurement of effective thermal conductivity of lotus copper
8.2.2 Analysis of effective thermal conductivity of lotus copper
8.3 Electrical conductivity
8.3.1 Measurement of electrical conductivity of lotus nickel
8.3.2 Analysis of electrical conductivity of lotus
... mehr
nickel
8.4 Thermal expansion
9. Processing
9.1 Weldability
10. Applications of lotus metals
10.1 Heat sink
10.2 Vibration-damping materials
10.3 Golf putter
10.4 Medical devices
11. Summary
- Acknowledgements
- Referencesive yield strength
7.4.2 Energy absorption
7.5 Bending strength
7.6 Fatigue strength
8. Various physical properties of lotus metals and alloys
8.4 Thermal expansion
9. Processing
9.1 Weldability
10. Applications of lotus metals
10.1 Heat sink
10.2 Vibration-damping materials
10.3 Golf putter
10.4 Medical devices
11. Summary
- Acknowledgements
- Referencesive yield strength
7.4.2 Energy absorption
7.5 Bending strength
7.6 Fatigue strength
8. Various physical properties of lotus metals and alloys
... weniger
Autoren-Porträt von Hideo Nakajima
Hideo Nakajima, Professor at The Institute of Scientific and Industrial Research, Osaka University.
Bibliographische Angaben
- Autor: Hideo Nakajima
- 2013, XII, 284 Seiten, 42 farbige Abbildungen, 202 Schwarz-Weiss-Abbildungen, Masse: 16 x 24,1 cm, Gebunden, Englisch
- Verlag: Springer Tokyo
- ISBN-10: 4431540164
- ISBN-13: 9784431540168
- Erscheinungsdatum: 08.10.2013
Sprache:
Englisch
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