Fabrication of lotus-type porous metals through thermal decomposition of compounds

H. Nakajima; M. Tane; S. Suzuki; S. Y. Kim

Fabrication of lotus-type porous metals through thermal decomposition of compounds

H. Nakajima^*, M. Tane, S. Suzuki, S. Y. Kim

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Lotus-type porous metals with directional pores are fabricated by unidirectional solidification in a pressurized hydrogen gas called as High Pressure Method (HPM). The pores are evolved when the gas atoms dissolved into the melt from the gas atmosphere are precipitated in the solidification process. However, this method has two obstacles for mass-production of the lotus metals; hydrogen is flammable and explosive when a small amount of oxygen is mixed in the chamber, and the use of high-pressure chamber is expensive and its handling is laborious. In order to overcome those shortcomings, we developed a novel method called as "Thermal Decomposition Method (TDM)" of compounds involving gas elements. During the solidification the gas pores are evolved in the same way as HPM. Moreover, when the compounds are decomposed in the melt, the metallic elements form some different compounds in the melt which serves as nucleation sites to evolve the fine pores with more uniform distribution. The fabrication method is superior to the conventional HPM.

Original language	English
Title of host publication	The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III
Pages	121-126
Number of pages	6
Publication status	Published - 2009
Externally published	Yes
Event	3rd International Conference on Processing Materials for Properties 2008, PMP III - Bangkok, Thailand Duration: 2008 Dec 7 → 2008 Dec 10

Publication series

Name	The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III
Volume	1

Conference

Conference	3rd International Conference on Processing Materials for Properties 2008, PMP III
Country/Territory	Thailand
City	Bangkok
Period	08/12/7 → 08/12/10

Keywords

Hydrogen
Pores
Porous metals
Solidification
Thermal decomposition

ASJC Scopus subject areas

Materials Science(all)

Cite this

Nakajima, H., Tane, M., Suzuki, S., & Kim, S. Y. (2009). Fabrication of lotus-type porous metals through thermal decomposition of compounds. In The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III (pp. 121-126). (The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III; Vol. 1).

Fabrication of lotus-type porous metals through thermal decomposition of compounds. / Nakajima, H.; Tane, M.; Suzuki, S. et al.
The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III. 2009. p. 121-126 (The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III; Vol. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Nakajima, H, Tane, M, Suzuki, S & Kim, SY 2009, Fabrication of lotus-type porous metals through thermal decomposition of compounds. in The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III. The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III, vol. 1, pp. 121-126, 3rd International Conference on Processing Materials for Properties 2008, PMP III, Bangkok, Thailand, 08/12/7.

Nakajima H, Tane M, Suzuki S, Kim SY. Fabrication of lotus-type porous metals through thermal decomposition of compounds. In The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III. 2009. p. 121-126. (The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III).

Nakajima, H. ; Tane, M. ; Suzuki, S. et al. / Fabrication of lotus-type porous metals through thermal decomposition of compounds. The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III. 2009. pp. 121-126 (The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III).

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abstract = "Lotus-type porous metals with directional pores are fabricated by unidirectional solidification in a pressurized hydrogen gas called as High Pressure Method (HPM). The pores are evolved when the gas atoms dissolved into the melt from the gas atmosphere are precipitated in the solidification process. However, this method has two obstacles for mass-production of the lotus metals; hydrogen is flammable and explosive when a small amount of oxygen is mixed in the chamber, and the use of high-pressure chamber is expensive and its handling is laborious. In order to overcome those shortcomings, we developed a novel method called as {"}Thermal Decomposition Method (TDM){"} of compounds involving gas elements. During the solidification the gas pores are evolved in the same way as HPM. Moreover, when the compounds are decomposed in the melt, the metallic elements form some different compounds in the melt which serves as nucleation sites to evolve the fine pores with more uniform distribution. The fabrication method is superior to the conventional HPM.",

keywords = "Hydrogen, Pores, Porous metals, Solidification, Thermal decomposition",

author = "H. Nakajima and M. Tane and S. Suzuki and Kim, {S. Y.}",

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AU - Nakajima, H.

AU - Tane, M.

AU - Suzuki, S.

AU - Kim, S. Y.

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Y1 - 2009

N2 - Lotus-type porous metals with directional pores are fabricated by unidirectional solidification in a pressurized hydrogen gas called as High Pressure Method (HPM). The pores are evolved when the gas atoms dissolved into the melt from the gas atmosphere are precipitated in the solidification process. However, this method has two obstacles for mass-production of the lotus metals; hydrogen is flammable and explosive when a small amount of oxygen is mixed in the chamber, and the use of high-pressure chamber is expensive and its handling is laborious. In order to overcome those shortcomings, we developed a novel method called as "Thermal Decomposition Method (TDM)" of compounds involving gas elements. During the solidification the gas pores are evolved in the same way as HPM. Moreover, when the compounds are decomposed in the melt, the metallic elements form some different compounds in the melt which serves as nucleation sites to evolve the fine pores with more uniform distribution. The fabrication method is superior to the conventional HPM.

AB - Lotus-type porous metals with directional pores are fabricated by unidirectional solidification in a pressurized hydrogen gas called as High Pressure Method (HPM). The pores are evolved when the gas atoms dissolved into the melt from the gas atmosphere are precipitated in the solidification process. However, this method has two obstacles for mass-production of the lotus metals; hydrogen is flammable and explosive when a small amount of oxygen is mixed in the chamber, and the use of high-pressure chamber is expensive and its handling is laborious. In order to overcome those shortcomings, we developed a novel method called as "Thermal Decomposition Method (TDM)" of compounds involving gas elements. During the solidification the gas pores are evolved in the same way as HPM. Moreover, when the compounds are decomposed in the melt, the metallic elements form some different compounds in the melt which serves as nucleation sites to evolve the fine pores with more uniform distribution. The fabrication method is superior to the conventional HPM.

KW - Hydrogen

KW - Pores

KW - Porous metals

KW - Solidification

KW - Thermal decomposition

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BT - The Minerals, Metals and Materials Society - 3rd International Conference on Processing Materials for Properties 2008, PMP III

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ER -

Fabrication of lotus-type porous metals through thermal decomposition of compounds

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

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