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 |
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Page 11
... contact angle of water on polyethylene (PE) is not affected by light with wavelengths longer than about 170 nm (the cut-off of quartz). The absorption spectrum of PE is also shown in Fig. 2. These data indicate that the contact angle is ...
... contact angle of water on polyethylene (PE) is not affected by light with wavelengths longer than about 170 nm (the cut-off of quartz). The absorption spectrum of PE is also shown in Fig. 2. These data indicate that the contact angle is ...
Page 12
... contact angle on PTFE. Clearly, then, a very important phenomenon operating in plasma reactors is the VUV photochemistry at surfaces. For the case of polymer surfaces, this is supported by literature references to improved wetting [55] ...
... contact angle on PTFE. Clearly, then, a very important phenomenon operating in plasma reactors is the VUV photochemistry at surfaces. For the case of polymer surfaces, this is supported by literature references to improved wetting [55] ...
Page 13
... contact angle goniometry [1, 4, 28, 48, 55]. Also very useful are high-resolution electron energy loss spectroscopy ... wetting by liquid adhesive systems [68, 69], or the interaction with deposited layers of metal or other materials ...
... contact angle goniometry [1, 4, 28, 48, 55]. Also very useful are high-resolution electron energy loss spectroscopy ... wetting by liquid adhesive systems [68, 69], or the interaction with deposited layers of metal or other materials ...
Page 15
... for MW and MW-RF N2 plasma-treated polyethylene (left column) and KaptonĀ® polyimide (right column). Modified after ref. 49. Figure 8. Shear strength vs. static water contact angle for. Plasma modification of polymers 15.
... for MW and MW-RF N2 plasma-treated polyethylene (left column) and KaptonĀ® polyimide (right column). Modified after ref. 49. Figure 8. Shear strength vs. static water contact angle for. Plasma modification of polymers 15.
Page 19
... contact angles of drops of various liquids on the surface. Untreated ... angle, 0, usually correlates with better bonding of adhesives, and 0 has ... contact angles of a selected series of liquids [92, 93]. However, for rigorous ...
... contact angles of drops of various liquids on the surface. Untreated ... angle, 0, usually correlates with better bonding of adhesives, and 0 has ... contact angles of a selected series of liquids [92, 93]. However, for rigorous ...
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