Lecture 14: Gauging Surface Free Energy of Solids and Surface Processes
This lecture is the third and final of Chapter 5. Having introduced contact angle measurements in the previous lecture, we will apply such measurements to gauge polymeric solids' surface energy. We will review both one-component and two-component methods. Such values are useful for estimating the strength of adhesion, the extent of spreading, work of immersion, and other phenomenon involving the interactions between liquids and solids.
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Lecture 15: Young-Laplace Equation, Curvature and Spherical Surfaces
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Lecture 12: Surface Energy and Surface Tension
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Analyzing Molecular Weight Distribution with Rheology
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Wetting, Young's Equation, Dupre's Equation
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Surface Energy Heterogeneity for Coating & Adhesion Applications - The IGC Technique by Dr. Burnett
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Interfacial tension
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Nanomaterials Webinar : Superhydrophobic Coatings
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Lecture 22: Stern Layer, Zeta Potential, DLVO Theory, non-DLVO Interactions and Charge Measurements
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Surface Tension of Water, Capillary Action, Cohesive and Adhesive Forces - Work & Potential Energy
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Lecture 18: Gibb’s Adsorption Equation and Surface Tension Curves
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Lecture 24: Introduction to Foams
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Young Laplace Equation
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Lecture 21: Particle Interaction Energies, Hamaker Constant, EDL, and the Gouy-Chapman Model
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Lecture 17: Surfactant Background, Examples and Structure
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Lecture 13: Contact Angle, Young’s Equation and Wetting
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Bouncing Droplets: Superhydrophobic and Superhydrophilic Surfaces
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Lecture 3: Thermodynamics of Dissolution, Solubility of Organic Liquids, Gases and Solids
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Lecture 04 : Surface and Surface Energy
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Young equation and contact angle
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