Contact angle of ethanol and n-propanol aqueous solutions on metal surfaces

L.-T. Fan; X.-G. Yuan; C.-X. Zhou; A.-W. Zeng; K.T. Yu; M. Kalbassi; K. Porter

doi:10.1002/ceat.201000474

Contact angle of ethanol and n-propanol aqueous solutions on metal surfaces

L.-T. Fan, X.-G. Yuan, C.-X. Zhou, A.-W. Zeng, K.T. Yu, M. Kalbassi, K. Porter

Chemical Engineering & Applied Chemistry

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

Abstract

The contact angles of the aqueous solution of ethanol and that of n-propanol on copper, aluminum, and stainless steel surfaces are reported. The contact angles were measured under atmospheric conditions, and then under vapor-liquid equilibrium conditions at 1atm and different temperatures. The results showed the variations of the contact angles with the concentrations of aqueous solutions on different metal material surfaces with different roughness. Some unstable behavior of the wetting ability around the azeotropic point of a binary solution is reported. Influences of concentration, kind of materials, and the surface roughness on the wetting ability are discussed. The model for predicting the contact angle of alcohol aqueous solutions on metal surfaces under atmospheric and vapor-liquid two-phase equilibrium conditions at 1atm is derived from the Young equation.

Original language	English
Pages (from-to)	1535-1542
Number of pages	8
Journal	Chemical Engineering and Technology
Volume	34
Issue number	9
Early online date	8 Aug 2011
DOIs	https://doi.org/10.1002/ceat.201000474
Publication status	Published - Sept 2011

Keywords

alcohol aqueous solution
contact angle
metal surface
wetting ability

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10.1002/ceat.201000474

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title = "Contact angle of ethanol and n-propanol aqueous solutions on metal surfaces",

abstract = "The contact angles of the aqueous solution of ethanol and that of n-propanol on copper, aluminum, and stainless steel surfaces are reported. The contact angles were measured under atmospheric conditions, and then under vapor-liquid equilibrium conditions at 1atm and different temperatures. The results showed the variations of the contact angles with the concentrations of aqueous solutions on different metal material surfaces with different roughness. Some unstable behavior of the wetting ability around the azeotropic point of a binary solution is reported. Influences of concentration, kind of materials, and the surface roughness on the wetting ability are discussed. The model for predicting the contact angle of alcohol aqueous solutions on metal surfaces under atmospheric and vapor-liquid two-phase equilibrium conditions at 1atm is derived from the Young equation.",

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TY - JOUR

T1 - Contact angle of ethanol and n-propanol aqueous solutions on metal surfaces

AU - Fan, L.-T.

AU - Yuan, X.-G.

AU - Zhou, C.-X.

AU - Zeng, A.-W.

AU - Yu, K.T.

AU - Kalbassi, M.

AU - Porter, K.

PY - 2011/9

Y1 - 2011/9

N2 - The contact angles of the aqueous solution of ethanol and that of n-propanol on copper, aluminum, and stainless steel surfaces are reported. The contact angles were measured under atmospheric conditions, and then under vapor-liquid equilibrium conditions at 1atm and different temperatures. The results showed the variations of the contact angles with the concentrations of aqueous solutions on different metal material surfaces with different roughness. Some unstable behavior of the wetting ability around the azeotropic point of a binary solution is reported. Influences of concentration, kind of materials, and the surface roughness on the wetting ability are discussed. The model for predicting the contact angle of alcohol aqueous solutions on metal surfaces under atmospheric and vapor-liquid two-phase equilibrium conditions at 1atm is derived from the Young equation.

AB - The contact angles of the aqueous solution of ethanol and that of n-propanol on copper, aluminum, and stainless steel surfaces are reported. The contact angles were measured under atmospheric conditions, and then under vapor-liquid equilibrium conditions at 1atm and different temperatures. The results showed the variations of the contact angles with the concentrations of aqueous solutions on different metal material surfaces with different roughness. Some unstable behavior of the wetting ability around the azeotropic point of a binary solution is reported. Influences of concentration, kind of materials, and the surface roughness on the wetting ability are discussed. The model for predicting the contact angle of alcohol aqueous solutions on metal surfaces under atmospheric and vapor-liquid two-phase equilibrium conditions at 1atm is derived from the Young equation.

KW - alcohol aqueous solution

KW - contact angle

KW - metal surface

KW - wetting ability

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JO - Chemical Engineering and Technology

JF - Chemical Engineering and Technology

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Contact angle of ethanol and n-propanol aqueous solutions on metal surfaces

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