Fundamentals, Testing, and Processing Techniques
E-Book, Englisch, 408 Seiten
ISBN: 978-1-4200-4408-9
Verlag: Taylor & Francis
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
The book contains analytical techniques used to elucidate surface chemistry, adhesion, and other physical properties. It also presents practical methods, such as accelerated light stability tests, to compare the resistance of different materials to wear, UV light/fading, and weathering. Subsequent chapters explore the most suitable techniques and the equipment for applying materials to different substrates, depending on material properties, service needs, and substrate types. Considering metal and nonmetal coatings and substrates, the book highlights the most recent advances on ink-jet printing, electrodeposition, vapor/chemical deposition technologies, high-speed dispersion, and other cutting-edge methods.
Coatings Technology: Fundamentals, Testing, and Processing Techniques provides the the necessary information for scientists and engineers to perform testing and determine what materials and processing technique is most suitable for their own applications.
Zielgruppe
Materials scientists, chemists, engineers, technicians, researchers, and manufacturers involved in coatings.
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
FUNDAMENTALS AND TESTING
Rheology and Surface Chemistry, K.B. Gilleo
Coating Rheology, C.-M. Chan and S. Venkatraman
Structure-Property Relationships in Polymers, S. Venkatraman
The Theory of Adhesion, C.A. Dahlquist
Adhesion Testing, U. Zorll
Coating Calculations, A.A. Tracton
Infrared Spectroscopy of Coatings, D.S. Kendall
Thermal Analysis for Coatings Characterizations, W.S. Gilman
Color Measurement for the Coatings Industry, H. Van Aken
The Use of X-ray Fluorescence for Coat Weight Determinations, W.E. Mozer
Sunlight, Ultraviolet, and Accelerated Weathering, P. Brennan and C. Fedor
Cure Monitoring: Microdielectric Techniques, D.R. Day
Test Panels, D. Grossman and P. Patton
Design of Experiments for Coatings, M.J. Anderson and P.J. Whitcomb
Top 10 Reasons Not to Base Service Life Predictions upon Accelerated Lab Light Stability Tests, E.T. Everett
Under What Regulation? A.A. Tracton
COATING AND PROCESSING TECHNIQUES
Wire-Wound Rod Coating, D.M. MacLeod
Slot Die Coating for Low Viscosity Fluids, H.G. Lippert
Porous Roll Coater, F.S. McIntyre
Rotary Screen Coating, F.A. Goossens
Screen Printing, T.B. McSweeney
Flexography, R. Neumann
Ink-Jet Printing, N.L. Cameron
Electrodeposition of Polymers, G.E.F. Brewer
Electroless Plating, A. Vakelis
The Electrolizing Thin, Dense, Chromium Process, M. O'Mary
The Armoloy Chromium Process, M. O'Mary
Sputtered Thin Film Coatings, B.E. Aufderheide
Vapor Deposition Coating Technologies, L. Pranevicius
Cathodic Arc Plasma Deposition, H. Randhawa
Industrial Diamond and Diamondlike Films, A.H. Deutchman and R.J. Partyka
Tribological Synergistic Coatings, W. Alina
Chemical Vapor Deposition, D. G. Bhat
Solvent Vapor Emission Control, R. Rathmell
Surface Treatment of Plastics, W.F. Harrington, Jr.
Flame Surface Treatment, H.T. Lindland
Plasma Surface Treatment, S.L. Kaplan and P.W. Rose
Surface Pretreatment of Polymer Webs by Fluorine, R. Milker and A. Koch
Calendering of Magnetic Media, J.A. McClenathan
Embossing, J.A. Pasquale III
In-Mold Finishing, R.W. Carpenter
HVLP: The Science of High-Volume, Low-Pressure Finishing, S. Stalker
A Practical Guide to High-Speed Dispersion, H. Hockmeyer
Fade Resistance of Lithographic Inks - A New Path Forward: Real World Exposures in Florida and Arizona Compared to Accelerated Xenon Arc Exposures, E.T. Everett, J. Lind, and J. Stack
