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Plasma surface modification of polymers : relevance to adhesion / edited by Kash L. Mittal, M. and Lyons.

Contributor(s): Lyons [editor.] | Mittal, Kash L, 1945- [editor.] | Taylor and Francis.
Material type: materialTypeLabelBookPublisher: Boca Raton, FL : CRC Press, an imprint of Taylor and Francis, [2014]Copyright date: ©1994Edition: First edition.Description: 1 online resource (290 pages).Content type: text Media type: computer Carrier type: online resourceISBN: 9780429071034.Subject(s): Adhesion | Oberflächenbehandlung | Plasma chemistry | Plasma etching | Plasma | Polymere | Polymers -- Surfaces | Surface chemistry | Surfaces (Technology) -- AnalysisAdditional physical formats: Print version: : No titleDDC classification: 620.192 Online resources: Click here to view.
Contents:
chapter 1 Technology Review -- chapter 2 Characterization of Plasma-treated Surfaces -- chapter 3 Practical Applications of Plasma-treated Surfaces.
Abstract: This book is a collection of invited papers (previously published in special issues of the Journal of Adhesion Science and Technology) written by internationally recognized researchers actively working in the field of plasma surface modification. It provides a current, comprehensive overview of the plasma treatment of polymers. CHARACTERIZATION OF PLASMA-TREATED SURFACES Chemical reactions on plasma-treated polyethylene surfaces CO2 plasma modification of high-modulus cerbon fibers and their adhesion to epoxy resins E.M. Liston, L. Martinu and M.R. Wertheimer Enhancement of the sticking coefficient of Mg on polypropylene by in situ ECR-RF Ar and N2 plasma treatments Evolution of the surface composition and topography of perfluorinated polymers following ammonia-plasma treatment F. Clouet, M.K. Shi, R. Prat, Y. Holl, P. Marie, D. Lonard, Y. De Puydt, P. Bertrand, J.-L. Dewez and A. Doren F. Poncin-Epaillard, B. Chevet and J.-C. Brosse F.D. Egitto, L.J. Matienzo, K.J. Blackwell and A.R. Knoll Immobilization of polyethylene oxide surfactants for non-fouling biomaterial surfaces using an argon glow discharge treatment Improved adhesion between plasma-treated polyimide film and evaporated copper In contrast to plasma polymerization, plasma surface modification reactions do not cause thin-film deposition, and can therefore only modify the surface properties of organic substrates. Plasma surface modifications are fast, efficient methods for improving the adhesion properties and other surface characteristics of a variety of polymeric materials. L.J. Gerenser M. Collaud, S. Nowak, O.M. Kttel and L. Schlapbach M. Morra, E. Occhiello and F. Garbassi M.-S. Sheu, A.S. Hoffman, B.D. Ratner, J. Feijen and J.M. Harris Multitechnique study of hexatriacontane surfaces modified by argon and oxygen RF plasmas: effect of treatment time and functionalization, and comparison with HDPE N. Inagaki, S. Tanaka and K. HibiOxygen plasma modification of polyimide webs: effect of ion bombardment on metal adhesion Plasma surface modification of polymers for improved adhesion: a critical review Plasma surface modification of polyethylene: short-term vs. long-term plasma treatment Plasma oxidation of polystyrene vs. polyethylene Plasma surface treatment of poly(p-phenylene benzobisthiozol) fibers PRACTICAL APPLICATIONS OF PLASMA-TREATED SURFACES R. Foerch, G. Kill and M.J. Walzak R.E. Allred and W.C. Schimpf R.K. Wells, J.P.S. Badyal, I.W. Drummond, K.S. Robinson and F.J. Street Reactivity of a polypropylene surface modified in a nitrogen plasma Surface fluorination of polyethylene films by different glow discharges. Effects of frequency and electrode configuration T.R. Gengenbach, X. Xie, R.C. Chatelier and H.J. Griesser TECHNOLOGY REVIEW The focus of this volume is on adhesion phenomena, surface properties and the surface characterization of plasma-treated materials. This book opens with a critical review of the plasma surface modification of polymers for improved adhesion. The remainder of the papers are divided into two sections, one dealing with the characterization of plasma-treated surfaces and the second concerned with various practical applications of plasma-treated surfacesXPS studies of in situ plasma-modified polymer surfaces Y. Khairallah, F. Arefi, J. Amouroux, D. Leonard and P. Bertrand Y. Qiu, S. Deflon and P. Schwartz.
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chapter 1 Technology Review -- chapter 2 Characterization of Plasma-treated Surfaces -- chapter 3 Practical Applications of Plasma-treated Surfaces.

This book is a collection of invited papers (previously published in special issues of the Journal of Adhesion Science and Technology) written by internationally recognized researchers actively working in the field of plasma surface modification. It provides a current, comprehensive overview of the plasma treatment of polymers. CHARACTERIZATION OF PLASMA-TREATED SURFACES Chemical reactions on plasma-treated polyethylene surfaces CO2 plasma modification of high-modulus cerbon fibers and their adhesion to epoxy resins E.M. Liston, L. Martinu and M.R. Wertheimer Enhancement of the sticking coefficient of Mg on polypropylene by in situ ECR-RF Ar and N2 plasma treatments Evolution of the surface composition and topography of perfluorinated polymers following ammonia-plasma treatment F. Clouet, M.K. Shi, R. Prat, Y. Holl, P. Marie, D. Lonard, Y. De Puydt, P. Bertrand, J.-L. Dewez and A. Doren F. Poncin-Epaillard, B. Chevet and J.-C. Brosse F.D. Egitto, L.J. Matienzo, K.J. Blackwell and A.R. Knoll Immobilization of polyethylene oxide surfactants for non-fouling biomaterial surfaces using an argon glow discharge treatment Improved adhesion between plasma-treated polyimide film and evaporated copper In contrast to plasma polymerization, plasma surface modification reactions do not cause thin-film deposition, and can therefore only modify the surface properties of organic substrates. Plasma surface modifications are fast, efficient methods for improving the adhesion properties and other surface characteristics of a variety of polymeric materials. L.J. Gerenser M. Collaud, S. Nowak, O.M. Kttel and L. Schlapbach M. Morra, E. Occhiello and F. Garbassi M.-S. Sheu, A.S. Hoffman, B.D. Ratner, J. Feijen and J.M. Harris Multitechnique study of hexatriacontane surfaces modified by argon and oxygen RF plasmas: effect of treatment time and functionalization, and comparison with HDPE N. Inagaki, S. Tanaka and K. HibiOxygen plasma modification of polyimide webs: effect of ion bombardment on metal adhesion Plasma surface modification of polymers for improved adhesion: a critical review Plasma surface modification of polyethylene: short-term vs. long-term plasma treatment Plasma oxidation of polystyrene vs. polyethylene Plasma surface treatment of poly(p-phenylene benzobisthiozol) fibers PRACTICAL APPLICATIONS OF PLASMA-TREATED SURFACES R. Foerch, G. Kill and M.J. Walzak R.E. Allred and W.C. Schimpf R.K. Wells, J.P.S. Badyal, I.W. Drummond, K.S. Robinson and F.J. Street Reactivity of a polypropylene surface modified in a nitrogen plasma Surface fluorination of polyethylene films by different glow discharges. Effects of frequency and electrode configuration T.R. Gengenbach, X. Xie, R.C. Chatelier and H.J. Griesser TECHNOLOGY REVIEW The focus of this volume is on adhesion phenomena, surface properties and the surface characterization of plasma-treated materials. This book opens with a critical review of the plasma surface modification of polymers for improved adhesion. The remainder of the papers are divided into two sections, one dealing with the characterization of plasma-treated surfaces and the second concerned with various practical applications of plasma-treated surfacesXPS studies of in situ plasma-modified polymer surfaces Y. Khairallah, F. Arefi, J. Amouroux, D. Leonard and P. Bertrand Y. Qiu, S. Deflon and P. Schwartz.

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