Fabrication, properties, and applications of porous metals with directional pores
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概要
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Lotus-type porous metals with aligned long cylindrical pores are fabricated by unidirectional solidification from the melt with a dissolved gas such as hydrogen, nitrogen, or oxygen. The gas atoms can be dissolved into the melt via a pressurized gas atmosphere or thermal decomposition of gaseous compounds. Three types of solidification techniques have been developed: mold casting, continuous zone melting, and continuous casting techniques. The last method is superior from the viewpoint of mass production of lotus metals. The observed anisotropic behaviors of the mechanical properties, sound absorption, and thermal conductivity are inherent to the anisotropic porous structure. In particular, the remarkable anisotropy in the mechanical strength is attributed to the stress concentration around the pores aligned perpendicular to the loading direction. Heat sinks are a promising application of lotus metals due to the high cooling performance with a large heat transfer.(Communicated by Akihisa INOUE, M.J.A.)
著者
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NAKAJIMA Hideo
The Institute of Scientific and Industrial Research, Osaka University
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Nakajima Hideo
The Institute Of Scientific And Industrial Research Osaka University
関連論文
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- PREFACE
- Influence of Ultrasonic Agitation on Pore Formation and Growth during Unidirectional Solidification of Water-Carbon Dioxide Solution
- Effect of Silica Additive on the Formation of Lotus-Type Porous Alumina under Unidirectional Solidification
- Fatigue Crack Initiation and Propagation in Lotus-Type Porous Copper
- Fabrication of Lotus-Type Porous Aluminum Utilizing Decomposition of Moisture
- Effect of Pore Morphology on Compressive Yield Strength of Lotus-Type Porous Copper with Various Specimen Sizes
- Size Effects on Tensile Strength of Lotus-Type Porous Copper
- Fabrication of Lotus-Type Porous Ni_3Al with and without Boron
- Effects of impurities on formation pores during solidification for porous alumina and its compressive strength
- Tracer and Chemical Diffusion in L1_2-Ordered Pt_3Fe
- Thermal Stability and Interdiffusion in Artificial L1_0-type Ordered AuFe Alloy Fabricated by Alternate Monatomic Deposition
- Effect of Hydrogen Pressure on Moisture-Based Fabrication of Lotus-Type Porous Nickel
- Effects of Be Additions on Microstructures of TiAl Intermetallic Compounds
- Self-Diffusion of ^Na and ^Cs in Simulated Nuclear Waste Glass
- Effect of Oxygen in Titanium on Reaction Diffusion between Ti and Al
- Fabrication of Porous Iron by Unidirectional Solidification in Nitrogen Atmosphere
- PREFACE
- Tribological Behaviour of Lotus-Type Porous Cast Iron
- Fabrication of Lotus-Type Silver with Directional Pores by Unidirectional Solidification in Oxygen Atmosphere
- Electrochemical Behaviour of Lotus-Type Porous SUS304L and SUS316L Stainless Steels
- Development of an Electrophoretic Sol-Gel Coating Process for Porous Metals
- Diffusion in α-Ti and Zr
- Characteristics of Sound Absorption in Lotus-Type Porous Magnesium
- Effective-Mean-Field Theory for Electrical Conductivity of Multiphase Composite Materials