A new approach to determination of the acid and base parameters of the surface free energy of polymers

AbstractThe surface activity of carbon black (CB) is an important factor affecting the reinforcement of rubber. The quantitative determination of the surface activity (surface free energy) of CB is of great significance. A simplified formula is obtained to determine the free energy of CB surface through theoretical analysis and mathematical derivation. The surface free energy for four kinds of industrial CBs were measured by inverse gas chromatography, and the influential factors were studied. The results showed that the aging time of the chromatographic column plays an important role in accurate measurement of the surface free energy of CB, in comparison with the influences from the inlet pressure and carrier gas flow rate of the chromatographic column filled with CB. Several kinds of industrial CB were treated at high temperature, and the surface free energy of CB had a significant increase. With the increase of surface free energy, the maximum torque was decreased significantly, the elongation at break tended to increase, the heat generation of vulcanizates was increased, and the wear resistance was decreased.

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4.4.4 Experimental determination of changes of surface stress due to adsorption - 4.4.5 Calculations of surface free energy and surface stress

Landolt-Börnstein - Group III Condensed Matter - Adsorbed Layers on Surfaces. Part 2: Measuring Techniques and Surface Properties Changed by Adsorption ◽

10.1007/10783464_11 ◽

2002 ◽

pp. 312-319

Author(s):

D. Sander ◽

H. Ibach

Keyword(s):

Free Energy ◽

Experimental Determination ◽

Surface Free Energy ◽

Surface Stress

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A multiliquid approach to the surface free energy determination of flame-treated surfaces of rubber-toughened polypropylene

Journal of Adhesion Science and Technology ◽

10.1163/156856198x00371 ◽

1998 ◽

Vol 12 (11) ◽

pp. 1141-1180 ◽

Cited By ~ 34

Author(s):

C. Della Volpe ◽

A. Deimichei ◽

T. Ricco

Keyword(s):

Free Energy ◽

Surface Free Energy ◽

Rubber Toughened ◽

Energy Determination

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Determination of Surface Free Energy at the Nanoscale via Atomic Force Microscopy without Altering the Original Morphology

Advances in Contact Angle, Wettability and Adhesion ◽

10.1002/9781118795620.ch10 ◽

2013 ◽

pp. 173-189

Author(s):

L. Mazzola ◽

A. Galderisi

Keyword(s):

Atomic Force Microscopy ◽

Free Energy ◽

Surface Free Energy ◽

Force Microscopy ◽

Atomic Force

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Determination of Components of Cassiterite Surface Free Energy from Contact Angle Measurements

Journal of Colloid and Interface Science ◽

10.1006/jcis.1993.1459 ◽

1993 ◽

Vol 161 (1) ◽

pp. 209-222 ◽

Cited By ~ 28

Author(s):

B. Jańczuk ◽

J.M. Bruque ◽

M.L. González-Martı́n ◽

J.Moreno del Pozo

Keyword(s):

Contact Angle ◽

Free Energy ◽

Surface Free Energy ◽

Angle Measurements ◽

Contact Angle Measurements

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A direct determination of the anisotropy of the surface free energy of solid gold, silver, copper, nickel, and alpha and gamma iron

Acta Metallurgica ◽

10.1016/0001-6160(64)90055-0 ◽

1964 ◽

Vol 12 (1) ◽

pp. 67-86 ◽

Cited By ~ 263

Author(s):

B.E Sundquist

Keyword(s):

Free Energy ◽

Surface Free Energy ◽

Direct Determination ◽

Gamma Iron ◽

Silver Copper ◽

Copper Nickel ◽

Solid Gold ◽

Gold Silver

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Determination of Surface Free Energy and Contact Angle for Hydrolyzed Shellac

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.506.270 ◽

2012 ◽

Vol 506 ◽

pp. 270-273 ◽

Cited By ~ 2

Author(s):

P. Kraisit ◽

S. Limmatvapirat ◽

J. Nunthanid ◽

Manee Luangtana-Anan ◽

K. Terada ◽

...

Keyword(s):

Contact Angle ◽

Free Energy ◽

Surface Free Energy ◽

Sessile Drop ◽

Polar Group ◽

Sessile Drop Technique ◽

Hydrolysis Process ◽

Polar Force ◽

Drop Technique

The purpose of this research was to determine surface free energy and contact angle of hydrolyzed shellac by using sessile drop technique. It is a method for determination of contact angle by placing a drop of liquid on a substrate and the surface free energy is then calculated by using the Wus equation. The substrate in this study was the hydrolyzed shellac prepared by hydrolysis of the native shellac at various times; 0, 15, 30 and 45 min using 2.0 %w/w sodium hydroxide. Water, formamide and ethylene glycol were liquids used for the investigation of the contact angle and surface free energy. The effect of hydrolysis time tended to reduce the contact angle and increase in the total surface free energy and polar force of hydrolyzed shellac. The result could be due to the breaking of the ester bonds of shellac during the hydrolysis process causing the higher free carboxyl group giving the higher polar group indicating by higher polar force and surface free energy. Therefore, the contact angle and surface free energy detected by sessile drop technique could be of benefit for the determination of hydrolysis process.

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