Adhesion Of Thin Plasma Polymer Films To Plastics

Adhesion of Thin Plasma Polymer Films to Plastics

Author : LW. Crane

Publisher :

Page : 6 pages

File Size : 33,52 MB

Release : 1978

Category : Adhesion

ISBN :

Get eBook

Book Description

To date, no comprehensive study of the adhesion of plasma-polymerized films on plastics has been made. In the present work, 1400-Å films produced by the radio frequency discharge plasma polymerization of styrene and acrylonitrile were deposited on polyethylene, polystyrene, polypropylene, poly(ethyleneterephthalate) (Mylar), polytetrafluoroethylene (Teflon), polycarbonate (Lexan), polyimide (Kapton), poly(methyl methacrylate) (Lucite), polyamide (Nylon 6), poly(oxymethylene) (Delrin), and poly(vinyl fluoride) (Tedlar) substrates. Adherence of these films was then measured by applying a 1⁄2 by 2 in. (1.27 by 5 cm) piece of Scotch No. 810 tape to the film and then removing the tape in a 90-deg peel. This provides a lower limit of 190 g/in. for the adhesion of the polymer film to the substrate. It was found that both plasma polystyrene and plasma polyacrylonitrile were removed by this procedure from poly(oxymethylene), polypropylene, poly(methyl methacrylate), and polycarbonate. Both films remained adhered to the other seven plastics during this test. These results can be explained on the basis of molecular structure and can be correlated with literature data on bond strength results for activated gas-treated substrates. It was also concluded, considering the divergent properties of the two plasma polymers, that adhesion to any substrate is not dependent on the structure of the plasma polymer. Soaking films of plasma-deposited polyacrylonitrile on Mylar in solvents of varying polarity for long periods of time did not reduce the adhesion of the film to the substrate. It would seem that the film-substrate bond is either a physical one of a very high order or more likely a true chemical bond.



Plasma Polymer Films

Author : Hynek Biederman

Publisher : World Scientific

Page : 391 pages

File Size : 42,44 MB

Release : 2004

Category : Technology & Engineering

ISBN : 1860944671

Get eBook

Book Description

Plasma Polymer Films examines the current status of the deposition and characterization of fluorocarbon-, hydrocarbon- and silicon-containing plasma polymer films and nanocomposites, with plasma polymer matrix. It introduces plasma polymerization process diagnostics such as optical emission spectroscopy (OES, AOES), and describes special deposition techniques such as atmospheric pressure glow discharge. Important issues for applications such as degradation and stability are treated in detail, and structural characterization, basic electrical and optical properties and biomedical applications are discussed.





Plasma Deposition, Treatment, and Etching of Polymers

Author : Riccardo d'Agostino

Publisher : Elsevier

Page : 544 pages

File Size : 29,47 MB

Release : 2012-12-02

Category : Technology & Engineering

ISBN : 0323139086

Get eBook

Book Description

Plasma Deposition, Treatment, and Etching of Polymers takes a broad look at the basic principles, the chemical processes, and the diagnostic procedures in the interaction of plasmas with polymer surfaces. This recent technology has yielded a large class of new materials offering many applications, including their use as coatings for chemical fibers and films. Additional applications include uses for the passivation of metals, the surface hardening of tools, increased biocompatibility of biomedical materials, chemical and physical sensors, and a variety of micro- and optoelectronic devices. Appeals to a broad range of industries from microelectronics to space technology Discusses a wide array of new uses for plasma polymers Provides a tutorial introduction to the field Surveys various classes of plasma polymers, their chemical and morphological properties, effects of plasma process parameters on the growth and structure of these synthetic materials, and techniques for characterization Interests scientists, engineers, and students alike



Atmospheric Pressure Plasma Treatment of Polymers

Author : Michael Thomas

Publisher : John Wiley & Sons

Page : 435 pages

File Size : 49,93 MB

Release : 2013-06-19

Category : Technology & Engineering

ISBN : 1118747518

Get eBook

Book Description

An indispensable volume detailing the current and potential applications of atmospheric pressure plasma treatment by experts practicing in fields around the world Polymers are used in a wide variety of industries to fabricate legions of products because of their many desirable traits. However, polymers in general (and polyolefins, in particular) are innately not very adhesionable because of the absence of polar or reactive groups on their surfaces and concomitant low surface energy. Surface treatment of polymers, however, is essential to impart reactive chemical groups on their surfaces to enhance their adhesion characteristic. Proper surface treatment can endow polymers with improved adhesion without affecting the bulk properties. A plethora of techniques (ranging from wet to dry, simple to sophisticated, vacuum to non-vacuum) for polymer surface modification have been documented in the literature but the Atmospheric Pressure Plasma (APP) treatment has attracted much attention because it offers many advantages vis-a-vis other techniques, namely uniform treatment, continuous operation, no need for vacuum, simplicity, low cost, no environmental or disposal concern, and applicability to large area samples. Although the emphasis in this book is on the utility of APP treatment for enhancement of polymer adhesion, APP is also applicable and effective to modulate many other surface properties of polymers: superhydrophilicity, superhydrophobicity, anti-fouling, anti-fogging, anti-icing, cell adhesion, biocompatibility, tribological behavior, etc. The key features of Atmospheric Pressure Plasma Treatment of Polymers: Address design and functions of various types of reactors Bring out current and potential applications of APP treatment Represent the cumulative wisdom of many key academic and industry researchers actively engaged in this key and enabling technology



Adhesion Aspects of Thin Films, volume 2

Author : Kash L. Mittal

Publisher : CRC Press

Page : 242 pages

File Size : 49,52 MB

Release : 2005-05-06

Category : Science

ISBN : 9047415213

Get eBook

Book Description

This volume documents the proceedings of the International Symposium on Adhesion Aspects of Thin Films (including Adhesion Measurement, and Metallized plastics) held in Orlando, FL, December 15-16, 2003.This volume is divided into three parts. Part 1 a General Papersa ; Part 2 a Metallized Plasticsa ; and Part 3 a Adhesion Measurementa. The top



Plasma Surface Modification of Polymers: Relevance to Adhesion

Author : Kash L. Mittal

Publisher : CRC Press

Page : 290 pages

File Size : 42,84 MB

Release : 2014-04-29

Category : Science

ISBN : 1466563419

Get eBook

Book Description

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



Adhesion Aspects of Thin Films

Author : K. L. Mittal

Publisher : VSP

Page : 288 pages

File Size : 13,58 MB

Release : 2001-04-03

Category : Science

ISBN : 9789067643382

Get eBook

Book Description

This book chronicles the proceedings of the First International Symposium on Adhesion Aspects of Thin Films, held in Newark, New Jersey, October 28-29, 1999. Films and coatings are used for a variety of purposes – decorative, protective, functional, etc. – in a host of applications. Irrespective of the intended function or application of a film or a coating, their adequate adhesion to the underlying substrates is of cardinal importance. Concomitantly, the need to understand the factors controlling adhesion and to tailor adhesion to a desired level is quite patent. This book contains a total of 16 papers, which were presented by researchers from academia, industry and other laboratories, and have been rigorously peer reviewed, suitably revised and properly edited before inclusion. The topics covered include: mechanisms, origin, evolution and measurement of stresses in thin films; surface stress effects on the intrinsic stress; various factors affecting stresses in thin films; delamination of coatings caused by residual stress; effects of surface treatments on the adhesion of metallic films; adhesion of CVD diamond to carbide cutting inserts; effect of carbon contaminant on adhesion of aluminum films; effect of interlayers on adhesion of ceramic coatings; effect of residual stress on adhesion and wear resistance of hard coatings; tribological properties of ceramic films; oxide layers as barrier coatings on a plastic substrate; adhesion aspects of organic coatings to metals; and adhesion of thin plasma polymerized fluorocarbon films.This book, providing a commentary on the current state of knowledge of adhesion of thin films, will be useful to anyone interested in thin films and will provide ideas on how to improve or tailor adhesion of a film or a coating for a given situation.



Adhesion in Microelectronics

Author : K. L. Mittal

Publisher : John Wiley & Sons

Page : 293 pages

File Size : 33,27 MB

Release : 2014-08-25

Category : Technology & Engineering

ISBN : 1118831349

Get eBook

Book Description

This comprehensive book will provide both fundamental and applied aspects of adhesion pertaining to microelectronics in a single and easily accessible source. Among the topics to be covered include; Various theories or mechanisms of adhesion Surface (physical or chemical) characterization of materials as it pertains to adhesion Surface cleaning as it pertains to adhesion Ways to improve adhesion Unraveling of interfacial interactions using an array of pertinent techniques Characterization of interfaces / interphases Polymer-polymer adhesion Metal-polymer adhesion (metallized polymers) Polymer adhesion to various substrates Adhesion of thin films Adhesion of underfills Adhesion of molding compounds Adhesion of different dielectric materials Delamination and reliability issues in packaged devices Interface mechanics and crack propagation Adhesion measurement of thin films and coatings



Development of Plasma Polymer Thin Films for Control of Cell and Microbe Attachment

Author : Yali Li

Publisher :

Page : 402 pages

File Size : 35,3 MB

Release : 2014

Category :

ISBN :

Get eBook

Book Description

Functional plasma polymer films have gained increasing attention in recent decades to selectively modify the surface of biomaterials. Although many applications have been identified for plasma polymerisation, the fundamental aspects of plasma polymer film growth are still poorly understood. In this thesis, both the film growth mechanism and applications of the coatings to control cell and microbe attachment in vitro were investigated. The main part of the thesis focused on fabrication of diethylene glycol dimethyl ether (diglyme, DG) plasma polymer films via radio frequency glow discharge (RFGD) plasma polymerisation. By manipulation of process parameters, diglyme plasma polymer films (DGpp) could perform as low-fouling coatings that was similar to poly(ethylene glycol) (PEG) grafted layers. Systematic study on the effect of load powers to DGpp film chemistry was carried out. The surface chemistry of the synthesised films was studied by X-ray photoelectron spectroscopy (XPS) and near edge X-ray absorption fine structure (NEXAFS) spectroscopy. It was found that higher load power led to more fragmentation of the monomer, therefore less retention of ether functionality. The resultant films were used for protein adsorption, cell culture and microbe attachment studies in vitro. Films produced with high ether concentration generally were resistant to fouling, meanwhile, relatively low ether concentration allowed a higher quantity of protein adsorption, cell and microbe attachment. The DGpp films were very smooth in nature. They have been deposited onto amyloid fibril networks (AFNs) that have roughness greater than the film per se. The change in roughness resulted in differences in amount of cell attachment and spreading. The unique structure of the AFNs was still visible under atomic force microscopy (AFM) after DGpp deposition, thus a study to decipher the mechanism of film growth was conducted. During the deposition of the films, various substrates, such as silicon wafers, glass and polymers, were used to test the adhesion strength of DGpp films. On silicon wafers, the films were stable in atmospheric conditions but became patchy after immersion in water or cell culture solutions for prolonged times. In addition, it was found DGpp films were most stable on polymeric substrates but were easily delaminated from indium tin oxide (ITO) coated glass. The low adhesion strength on ITO glass was exploited further in this thesis to expose the substrate-film interface by peeling off the film using double-sided tape. This simple method allowed investigation of the chemistry of the DGpp films growth at the initial stage. Adhesion of plasma polymer film to the substrate depends on the interaction of gas phase species in the plasmas with the top surface of the material. In order to gain a better understanding of the interface mixing between plasma polymer films and polymeric substrates, DGpp films were deposited (under the same conditions) onto six types of plasma polymer films. Non-invasive methods, neutron and X-ray reflectometry (NR, XRR) were employed to characterise these bilayer constructs and showed changes in interfacial width depending on the base plasma polymer layer. Since the DGpp film was not very efficient in antimicrobial application for the long term, a new plasma polymer based route was selected to combat the infection problem of biomaterial surfaces. A brominated coating was produced using RFGD plasma polymerisation and modified with sodium azide to incorporate azide functionality onto the surface. The resultant coatings were tested in vitro against Staphylococcus epidermidis, Pseudomonas aeruginosa and Candida albicans. Excellent antimicrobial property was presented on azide immoblised surfaces. On the other hand, those coatings are compatible with HeLa cell culture and induced minimal lysis of human erythrocytes.