Plasma Surface Modification of Polymers: Relevance to AdhesionKash L. Mittal, M., Lyons 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. In contrast to plasm |
From inside the book
Page vii
... exposure times of less than one second. This combination of desirable process characteristics is leading to a rapid expansion in the commercial use of plasma surface modification, particularly in the biological, automotive, aerospace ...
... exposure times of less than one second. This combination of desirable process characteristics is leading to a rapid expansion in the commercial use of plasma surface modification, particularly in the biological, automotive, aerospace ...
Page 4
... exposure to flames, corona discharges, and glow discharge plasmas. A basic objective of any such treatment is to remove loosely bonded surface contamination and to provide intimate contact between the two interacting materials on a ...
... exposure to flames, corona discharges, and glow discharge plasmas. A basic objective of any such treatment is to remove loosely bonded surface contamination and to provide intimate contact between the two interacting materials on a ...
Page 8
... exposure of the treated part to air, at which time residual free radicals can react with atmospheric oxygen or water ... exposed to ambient atmosphere. For example, it is known that as little as 0.1 /*g/cm2 (a single molecular layer) of ...
... exposure of the treated part to air, at which time residual free radicals can react with atmospheric oxygen or water ... exposed to ambient atmosphere. For example, it is known that as little as 0.1 /*g/cm2 (a single molecular layer) of ...
Page 9
... exposed to noble gas plasmas (e.g. He or Ar), which are effective at creating free radicals but do not add new chemical functionalities from the gas phase. Ion bombardment or vacuum ultraviolet (VUV) photons* can break C—C or C—H bonds ...
... exposed to noble gas plasmas (e.g. He or Ar), which are effective at creating free radicals but do not add new chemical functionalities from the gas phase. Ion bombardment or vacuum ultraviolet (VUV) photons* can break C—C or C—H bonds ...
Page 10
... exposed to oxygen-containing plasmas, 20% or more of the gas phase can be volatile compounds of carbon, hydrogen, and oxygen, all of which can interact with the surface, both chemically and energetically. The VUV emission from a large ...
... exposed to oxygen-containing plasmas, 20% or more of the gas phase can be volatile compounds of carbon, hydrogen, and oxygen, all of which can interact with the surface, both chemically and energetically. The VUV emission from a large ...
Other editions - View all
Plasma Surface Modification of Polymers: Relevance to Adhesion Kash L Mittal,C. S. Lyons No preview available - 2019 |
Plasma Surface Modification of Polymers: Relevance to Adhesion M. Strobel,C. S. Lyons,Kash L. Mittal No preview available - 1994 |
Common terms and phrases
adhesion adsorption ageing amount analysis appears Appl applications argon atomic bond carbon carboxyl chamber changes Chem chemical compared component composition concentration configuration contact angle contamination crosslinking decrease degradation density dependence derivatization determined discharge discussed effect electron emission energy exposure fibers Figure fluorine formation formed function given greater groups HDPE higher improved incorporation increase indicate intensity interactions interface Kapton film layer LDPE lead less material measured mechanical metal nitrogen observed obtained occur oxidation oxygen parameters peak performed plasma treatment plasma-treated polar polyethylene polymer surface positive present pressure produced properties radicals range ratio reaction reactive reactor reduced region relative reported respectively samples shown similar species spectra spectrum SSIMS sticking coefficient strength structure substrate suggest surface modification Table techniques temperature treated untreated values various washing