Description |
1 online resource (428 pages) |
Contents |
Cover; Title Page; Copyright Page; Contents; Preface; Part 1 Contact Angle Measurement and Analysis; 1 A More Appropriate Procedure to Measure and Analyse Contact Angles/Drop Shape Behaviours; 1.1 Introduction; 1.1.1 Brief Summary of the History of â#x80;#x9C;Modernâ#x80;#x9D; Wetting; 1.1.2 Vexing Question in Wettability; 1.1.3 Background; 1.1.3.1 Force Balance and Roughness; 1.1.3.2 Selected Theoretical Aspects; 1.1.3.3 Contact Angle Analysis and Hysteresis; 1.2 Experimental; 1.3 Obtaining â#x80;#x9C;Continuousâ#x80;#x9D; Drop Shapes and Independent Contact Angles; 1.3.1 HPDSA: Image Transformation |
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1.3.2 HPDSA: Contact Angle Determination1.3.3 HPDSA: Triple Point Determination; 1.3.4 HPDSA Software; 1.3.4.1 Baseline Determination; 1.3.4.2 Image Transformation; 1.3.4.3 Fitting Procedure and Convergence; 1.4 Different Contact Angles Analyses; 1.4.1 Possible Static Analysis; 1.4.2 Overall Contact Angle Analysis; 1.4.2.1 Example: Inclined Plane; 1.4.2.2 Example: Horizontal Plane with Immersed Needle; 1.4.3 Statistical Event Analysis: Velocity and Statistical Event Definition; 1.4.4 Statistical Event Analysis: Independent/Global Contact Angle Analysis |
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1.4.5 Statistical Event Analysis: Dependent/Individual Contact Angle Analysis1.4.6 Statistical Event Analysis: Example Demonstration of Analysis Procedures; 1.5 Summary/Outlook; 1.5.1 Summary â#x80;#x93; Contact Angles Determination and Analyses; 1.5.2 Outlook â#x80;#x93; Drop Shape Behaviour; Acknowledgements; Glossary of Symbols; Copyrights; References; 2 Optical Contact Angle Measurement Considering Spreading, Evaporation and Reactive Substrate; 2.1 Introduction; 2.2 Experimental Setup for Contact Angle Measurement; 2.2.1 Ideal Drop Spreading; 2.2.2 Role of Environmental Condition |
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2.2.3 Ideal Environmental (Saturated Vapor) Condition2.2.4 Reactive System Condition; 2.3 Summary; 2.4 Supplementary Media Material; Acknowledgement; References; 3 Method Development for Measuring Contact Angles of Perfluoropolyether Liquid on Fomblin HC/25® PFPE Film; 3.1 Introduction; 3.2 Experimental; 3.2.1 Method Used; 3.2.2 Determination of Surface Free Energy (SFE); 3.2.3 Contact Angles Measurements of PFPE Drop on PFPE â#x80;#x9C;Liquid Filmâ#x80;#x9D; (PFPEd/PFPEf); 3.2.4 Statistical Analyses; 3.3 Results and Discussion; 3.3.1 Surface Free Energy (SFE) Characterization of PermaFoam |
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3.3.2 Surface Free Energy Characterization of PFPE â#x80;#x9C;Liquid Filmâ#x80;#x9D;3.4 Summary; Acknowledgements; References; 4 Characterizing the Physicochemical Processes at the Interface through Evolution of the Axisymmetric Droplet Shape Parameters; 4.1 Introduction; 4.2 The Relationships between the Contact Angle and the Thermodynamic and Geometric Characteristics of the Surface; 4.3 Experimental Methods for Determination of the Contact Angle and the Surface Tension for a Sessile Droplet on the Surface |
Notes |
4.4 Determination of the Wetting Tension and the Wetted Area Fraction on the Basis of Temporal Evolution of Contact Angle and Surface Tension in Sessile Drop Method |
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Print version record |
Subject |
Contact angle.
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Wetting.
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Adhesion.
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adhesion.
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Adhesion
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Contact angle
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Wetting
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Form |
Electronic book
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ISBN |
9781119459989 |
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1119459982 |
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9781119459958 |
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1119459958 |
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