Investigation of Two Immiscible Liquids Wetting at Elevated Temperature: Interaction Between Liquid FeMn Alloy and Liquid Slag

AbstractThe goal of the current work is to develop a methodology to study the wetting behaviour of two immiscible liquids at high temperatures, and to investigate the parameters which influence the wetting properties. The wetting behaviour between synthetic FeMn alloy and synthetic slag has been investigated using the sessile drop technique. Two experimental procedures were implemented under both Ar and CO atmospheres: (a) FeMn alloy and slag placed next to each other on a graphite substrate; and (b) one droplet dropped on top of the other. FactSage is applied to calculate reactions and their equilibrium. The current work presents and demonstrates the suggested methodologies. The results indicate that the wetting between slag and FeMn alloy is relatively stable at temperatures up to 100 K above their melting points, regardless of the droplet size and atmosphere. MnO reduction is accelerated at higher temperature, especially in CO, thus increasing the wetting between FeMn alloy and slag, eventually fusing together. At even higher temperature, slag separates from FeMn alloy due to changing chemical composition during non-equilibrium MnO reduction.

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Wetting and Interfacial Behaviors of Molten Ag, Cu and Ag-28Cu on WC-8Co Cemented Carbide

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.697.555 ◽

2016 ◽

Vol 697 ◽

pp. 555-560 ◽

Cited By ~ 1

Author(s):

Hao Fu ◽

Xiang Zhao Zhang ◽

Gui Wu Liu ◽

Zi Wei Xu ◽

Tie Zheng Pan ◽

...

Keyword(s):

Contact Angle ◽

Sessile Drop ◽

Testing Temperature ◽

Cemented Carbide ◽

Equilibrium Contact Angle ◽

Sessile Drop Technique ◽

Different Temperatures ◽

Higher Temperature ◽

Drop Technique ◽

Scanning Electron

The wetting and spreading of molten Cu, Ag and Ag-28Cu (wt.%) on the WC-Co cemented carbide were investigated by the sessile drop technique at different temperatures, and the interfacial behaviors of the metal/WC-Co couples were analyzed by scanning electron microscopy (SEM) coupled with energy dispersive spectroscopy (EDS). The experimental results showed that the testing temperature and the composition of drop can play a key role in the wetting and spreading, and the good wettability with contact angle of less than 40o can be obtained. Moreover, the strongest interactions can be produced between the molten Cu and the WC-Co substrate at the higher temperature of 1100 oC due to the strong interdiffusion and solid solution between Cu and Co, resulting in the lowest equilibrium contact angle of ~0o. In addition, smooth and clean interfaces, without formation of visible interfacial reaction layer, were observed in all the three wetting systems. This work may also provide guidance to brazing of the cemented carbide.

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Studies of the wetting characteristics of liquid iron on dense alumina by the X-ray sessile drop technique

Metallurgical and Materials Transactions B ◽

10.1007/s11663-003-0006-0 ◽

2003 ◽

Vol 34 (2) ◽

pp. 193-199 ◽

Cited By ~ 43

Author(s):

E. Kapilashrami ◽

A. Jakobsson ◽

S. Seetharaman ◽

A. K. Lahiri

Keyword(s):

Liquid Iron ◽

Sessile Drop ◽

Sessile Drop Technique ◽

X Ray ◽

Drop Technique

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New Data Processing for the Sessile Drop Technique and the Application to Cu-20 mass%Ni/Al2O3 System

Journal of the Japan Institute of Metals and Materials ◽

10.2320/jinstmet1952.55.10_1123 ◽

1991 ◽

Vol 55 (10) ◽

pp. 1123-1129 ◽

Cited By ~ 1

Author(s):

Takehiro Dan ◽

Kohmei Halada ◽

Yuji Muramatsu

Keyword(s):

Data Processing ◽

Sessile Drop ◽

Sessile Drop Technique ◽

Drop Technique

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Wetting ofAl2O3by Molten Aluminum: The Influence ofBaSO4Additions

Journal of Nanomaterials ◽

10.1155/2008/629185 ◽

2008 ◽

Vol 2008 ◽

pp. 1-12 ◽

Cited By ~ 18

Author(s):

Joaquin Aguilar-Santillan

Keyword(s):

High Temperatures ◽

Firing Temperature ◽

Molten Aluminum ◽

Sessile Drop ◽

Contact Angles ◽

Sessile Drop Technique ◽

Pure Alumina ◽

Two Temperatures ◽

Drop Technique

The effects ofBaSO4additions on the wetting of alumina by molten aluminum were studied by the sessile drop technique. To study the effect ofBaSO4decomposition(1100–1150∘C), the additions were treated at two temperatures700∘C(973 K) and1450∘C(1723 K), respectively.BaSO4additions at low and high temperatures did not improve the nonwetting character of these compositions. However, at higher firing temperature, the formation ofBA6 (BaO•6Al2O3)has a nonwetting trend with increasing its content. To address theBA6specifically a pureBaO•6Al2O3was produced and tested. It was more nonwetting than the pure alumina. After the analysis of the contact angles for theBaSO4and theBA6 (BaO•6Al2O3), it was concluded that these additions to alumina do not inhibit wetting by molten aluminum. In fact, at the addition levels common for refractories, the wetting tendency of molten aluminum is enhanced. Alternative explanations for the effectiveness ofBaSO4additions to alumina refractories are discussed.

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