Unusual wetting of liquid metals on iron substrate with oxidized surface in reduced atmosphere

Nobuyuki Takahira; Toshihiro Tanaka; Shigeta Hara; Joonho Lee

doi:10.2320/matertrans.46.3008

Unusual wetting of liquid metals on iron substrate with oxidized surface in reduced atmosphere

Nobuyuki Takahira^*
, Toshihiro Tanaka
, Shigeta Hara
, Joonho Lee

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

33 Citations (Scopus)

Abstract

The authors found that a liquid Cu droplet wetted and spread very widely on a solid substrate of Fe in a reduced atmosphere after the surface oxidation of the substrate. The mechanism of the unusual wetting behavior was investigated by using surface-oxidized Fe substrate with liquid Cu, Ag, Sn, and In. It was found that under a reduced atmosphere condition, fine pores were formed at the surface of the substrate which had been oxidized, and that the pores were connected to each other continuously over the whole surface. The liquid metals penetrate into these pores by capillary force to cause the unusual wetting behavior.

Original language	English
Pages (from-to)	3008-3014
Number of pages	7
Journal	Materials Transactions
Volume	46
Issue number	12
DOIs	https://doi.org/10.2320/matertrans.46.3008
Publication status	Published - 2005 Dec

Keywords

Capillary phenomenon
Copper
High temperature oxidation
Indium
Porous structure
Silver
Tin
Wettability

ASJC Scopus subject areas

General Materials Science
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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10.2320/matertrans.46.3008

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title = "Unusual wetting of liquid metals on iron substrate with oxidized surface in reduced atmosphere",

abstract = "The authors found that a liquid Cu droplet wetted and spread very widely on a solid substrate of Fe in a reduced atmosphere after the surface oxidation of the substrate. The mechanism of the unusual wetting behavior was investigated by using surface-oxidized Fe substrate with liquid Cu, Ag, Sn, and In. It was found that under a reduced atmosphere condition, fine pores were formed at the surface of the substrate which had been oxidized, and that the pores were connected to each other continuously over the whole surface. The liquid metals penetrate into these pores by capillary force to cause the unusual wetting behavior.",

keywords = "Capillary phenomenon, Copper, High temperature oxidation, Indium, Porous structure, Silver, Tin, Wettability",

author = "Nobuyuki Takahira and Toshihiro Tanaka and Shigeta Hara and Joonho Lee",

year = "2005",

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publisher = "Japan Institute of Metals (JIM)",

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T1 - Unusual wetting of liquid metals on iron substrate with oxidized surface in reduced atmosphere

AU - Takahira, Nobuyuki

AU - Tanaka, Toshihiro

AU - Hara, Shigeta

AU - Lee, Joonho

PY - 2005/12

Y1 - 2005/12

N2 - The authors found that a liquid Cu droplet wetted and spread very widely on a solid substrate of Fe in a reduced atmosphere after the surface oxidation of the substrate. The mechanism of the unusual wetting behavior was investigated by using surface-oxidized Fe substrate with liquid Cu, Ag, Sn, and In. It was found that under a reduced atmosphere condition, fine pores were formed at the surface of the substrate which had been oxidized, and that the pores were connected to each other continuously over the whole surface. The liquid metals penetrate into these pores by capillary force to cause the unusual wetting behavior.

AB - The authors found that a liquid Cu droplet wetted and spread very widely on a solid substrate of Fe in a reduced atmosphere after the surface oxidation of the substrate. The mechanism of the unusual wetting behavior was investigated by using surface-oxidized Fe substrate with liquid Cu, Ag, Sn, and In. It was found that under a reduced atmosphere condition, fine pores were formed at the surface of the substrate which had been oxidized, and that the pores were connected to each other continuously over the whole surface. The liquid metals penetrate into these pores by capillary force to cause the unusual wetting behavior.

KW - Capillary phenomenon

KW - Copper

KW - High temperature oxidation

KW - Indium

KW - Porous structure

KW - Silver

KW - Tin

KW - Wettability

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UR - https://www.scopus.com/pages/publications/32344437377#tab=citedBy

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DO - 10.2320/matertrans.46.3008

M3 - Article

AN - SCOPUS:32344437377

SN - 1345-9678

VL - 46

SP - 3008

EP - 3014

JO - Materials Transactions

JF - Materials Transactions

IS - 12

ER -

Unusual wetting of liquid metals on iron substrate with oxidized surface in reduced atmosphere

Abstract

Keywords

ASJC Scopus subject areas

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