SURFACE TENSION OF MOLTEN IF STEEL CONTAINING Ti AND ITS INTERFACIAL PROPERTIES WITH SOLID ALUMINA
来源期刊:Acta Metallurgica Sinica2004年第6期
论文作者:K.Mukai L.C.Zhong M.Zeze
Key words:surface tension; contact angle; molten IF steel; titanium; alumina; fine foreign particle;
Abstract: Surface tension of molten IF steel containing Ti and contact angle between the liquid steel and solid alumina were measured with sessile droplet method under Ar gas atmosphere at 1500, 1575 and 1600℃. The results show that titanium decreases the surface tension of the molten IF steel and the contact angle. The interfacial tension between the molten IF steel containing Ti and solid alumina decreases with increase in titanium content. The work of adhesion between molten IF steel containing Ti and solid alumina decreases slightly at 1550℃, but increases at 1600℃ with increasing titanium content. It can be deduced that fine bubbles and fine alumina inclusions are easily entrapped in solidifying interface for IF steel containing Ti.
K.Mukai1,L.C.Zhong2,M.Zeze3
(1.Department of Materials Science and Engineering, Faculty of Engineering, Kyushu Institute of Technology, Kitakyushu 804-8550, Japan;
2.Institute of Ferrous Metallurgy, Northeastern University, Shenyang 110004, China;
3.Yawata R&D Laboratory, Technical Development Bureau, Nippon Steel Corporation,Kitakyushu 804-8501, Japan)
Abstract:Surface tension of molten IF steel containing Ti and contact angle between the liquid steel and solid alumina were measured with sessile droplet method under Ar gas atmosphere at 1500, 1575 and 1600℃. The results show that titanium decreases the surface tension of the molten IF steel and the contact angle. The interfacial tension between the molten IF steel containing Ti and solid alumina decreases with increase in titanium content. The work of adhesion between molten IF steel containing Ti and solid alumina decreases slightly at 1550℃, but increases at 1600℃ with increasing titanium content. It can be deduced that fine bubbles and fine alumina inclusions are easily entrapped in solidifying interface for IF steel containing Ti.
Key words:surface tension; contact angle; molten IF steel; titanium; alumina; fine foreign particle;
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