| Interfacial Engineering Series |
Authors: Alphonsus V. Pocius, Corporate Scientist, 3M Corp; D. Fennell Evans, Professor Emeritus, Chemical Engineering and Materials Science, University of Minnesota
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Fundamental concepts of adhesion and adhesives are explained through the use of graphics, interactive exercises and examples of practical usage. A Concept Map outlines each step in the adhesion process along with the relevant technical issues. Chemical structures and formulation pathway are provided for key adhesives.
More information is available by clicking on 'Course contents' to the right, and at the bottom of this page.
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To purchase this course, follow the steps below:
Course contents include: Acrylic resins, Anodization, Autoadhesion, Beam theory, Blister test, Bondering, Butt tensile test, Chemical etching, Cleavage force, Compression lap shear, Conversion coating, Corona discharge, Coupling agents, Dahlquist criteria, Double cantilever beam, Dupre equation, Elastomers, Epoxy resins, Equilibrium spreading pressure, Failure in adhesion, Failure in cohesion, Flame treatment, Floating roller peel test, Fowkes equation, FPL etch, Goland-Reissner equation, Good-Giriaico equation, High temperature adhesives, Hooke's law, JKR , Johnson, Kendall, and Roberts, Lap shear test, Mechanical interlocking, Melt flow index, Newtonian liquid, Non-Newtonian liquid, Peel measurements, Peel test, Phenolic resins, RBA, Rubber based adhesives, SFA, Spreading pressure, Stud pull off test, Surface forces apparatus, Surface preparation, Surface treatment, Tack, Tack test, Tackifiers, Thermoset, Urethance resins, Weak boundary layer, Wedge test, Work of adhesion, Young's modulus, Young-Dupre equation, Ziseman equation
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