Effect of Particle Addition to Liquid Metal on Fabrication of Aluminum Foam

Kota Kadoi,; Hideo Nakae,

doi:10.1515/HTMP.2007.26.4.275

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Effect of Particle Addition to Liquid Metal on Fabrication of Aluminum Foam

Kota Kadoi, and Hideo Nakae,

Published/Copyright: May 6, 2011

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From the journal High Temperature Materials and Processes Volume 26 Issue 4

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MLA
APA
Harvard
Chicago
Vancouver

Kadoi,, Kota and Nakae,, Hideo. "Effect of Particle Addition to Liquid Metal on Fabrication of Aluminum Foam" High Temperature Materials and Processes, vol. 26, no. 4, 2007, pp. 275-284. https://doi.org/10.1515/HTMP.2007.26.4.275

Kadoi,, K. & Nakae,, H. (2007). Effect of Particle Addition to Liquid Metal on Fabrication of Aluminum Foam. High Temperature Materials and Processes, 26(4), 275-284. https://doi.org/10.1515/HTMP.2007.26.4.275

Kadoi,, K. and Nakae,, H. (2007) Effect of Particle Addition to Liquid Metal on Fabrication of Aluminum Foam. High Temperature Materials and Processes, Vol. 26 (Issue 4), pp. 275-284. https://doi.org/10.1515/HTMP.2007.26.4.275

Kadoi,, Kota and Nakae,, Hideo. "Effect of Particle Addition to Liquid Metal on Fabrication of Aluminum Foam" High Temperature Materials and Processes 26, no. 4 (2007): 275-284. https://doi.org/10.1515/HTMP.2007.26.4.275

Kadoi, K, Nakae, H. Effect of Particle Addition to Liquid Metal on Fabrication of Aluminum Foam. High Temperature Materials and Processes. 2007;26(4): 275-284. https://doi.org/10.1515/HTMP.2007.26.4.275

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Published Online: 2011-05-06

Published in Print: 2007-08

Articles in the same Issue

TABLE OF CONTENTS
Preface
Metal Foams with Advanced Pore Morphology (APM)
Improvements in Stabilisation and Cellular Structure of Al based Foams with Novel Carbonate Foaming Agent
Effect of Titanium Hydride Powder Characteristics and Aluminium Alloy Composition on Foaming
Fabrication of Micro Porous Metal Components by Metal Injection Molding Based Powder Space Holder Method
Application of Reticulated Metal Foam to Gas Fired Infrared Burners
Effect of Particle Addition to Liquid Metal on Fabrication of Aluminum Foam
The Spark Plasma Sintering Method Using Laminated Titanium Powder Sheet for Fabricating Porous Biocompatible Implants
Hierarchical Structure of Aluminium Foams and Relation to Compression Behaviour
Fabrication of Lotus-type Porous NiTi Shape Memory Alloys using the Continuous Zone Melting Method and Tensile Property
Fabrication of Lotus-Type Porous Magnesium and its Alloys by Unidirectional Solidification under Hydrogen Atmosphere

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Articles in the same Issue

TABLE OF CONTENTS
Preface
Metal Foams with Advanced Pore Morphology (APM)
Improvements in Stabilisation and Cellular Structure of Al based Foams with Novel Carbonate Foaming Agent
Effect of Titanium Hydride Powder Characteristics and Aluminium Alloy Composition on Foaming
Fabrication of Micro Porous Metal Components by Metal Injection Molding Based Powder Space Holder Method
Application of Reticulated Metal Foam to Gas Fired Infrared Burners
Effect of Particle Addition to Liquid Metal on Fabrication of Aluminum Foam
The Spark Plasma Sintering Method Using Laminated Titanium Powder Sheet for Fabricating Porous Biocompatible Implants
Hierarchical Structure of Aluminium Foams and Relation to Compression Behaviour
Fabrication of Lotus-type Porous NiTi Shape Memory Alloys using the Continuous Zone Melting Method and Tensile Property
Fabrication of Lotus-Type Porous Magnesium and its Alloys by Unidirectional Solidification under Hydrogen Atmosphere