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Journal of Adhesion Science and Technology Volume 10, 1996 - Issue 6
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Articles

Flame surface modification of polypropylene film

Mark Strobel Corporate Research Laboratories, 3M Company, 3M Center, Building 208-1, St Paul, MN 55144-1000, USA
,
Melvyn C. Branch Center for Combustion Research, Department of Mechanical Engineering, University of Colorado, Boulder, CO 80309-0427, USA
,
Michael Ulsh Center for Combustion Research, Department of Mechanical Engineering, University of Colorado, Boulder, CO 80309-0427, USA
,
Ronald S. Kapaun Corporate Research Laboratories, 3M Company, 3M Center, Building 208-1, St Paul, MN 55144-1000, USA
,
Seth Kirk Corporate Research Laboratories, 3M Company, 3M Center, Building 208-1, St Paul, MN 55144-1000, USA
&
Christopher S. Lyons Corporate Research Laboratories, 3M Company, 3M Center, Building 208-1, St Paul, MN 55144-1000, USA
Pages 515-539 | Published online: 02 Apr 2012
 
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Abstract

Contact-angle measurements, the ASTM standard wetting test for polyolefin films, and X-ray photoelectron spectroscopy (XPS or ESCA) were used to characterize flame-treated polypropylene (PP) films. Two combustion models, STANJAN and PREMIX, were then used to determine the chemical and physical properties of the flames used to treat the PP films. Both the flame equivalence ratio and the position of the PP film in the flame are important variables in determining the extent of oxidation and improvement in wettability obtained by flame treating. The optimal equivalence ratio for the flame treatment of PP is 0.93, while the optimal luminous flame-to-film distance is 0-2 mm. Modeling of the combustion processes occurring in the flame provides evidence that the extent of treatment correlates closely with the concentrations of H, O, and OH radicals present in the flame. The extent of surface modification of the flame-treated PP does not appear to correlate with either the flame temperature or the concentraion of oxygen molecules. The mechanism of surface oxidation by flame treatment probably involves polymer-radical formation by O and OH, followed by rapid reaction of the polymer radicals with O, OH, and O2.

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