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Status:
Available5.0
16 reviews
ISBN 10: 0429094906
ISBN 13: 9780429094903
Author: David J Quesnel, Ronald S Rimai, Louis H Sharpe
Whenever a curved surface interacts with another surface, the principles of adhesion are at work. From the cells in your body to the dust on your glasses, intermolecular forces cause materials to attract one another. Elastic deformations resulting from these adhesive interactions store strain that can be liberated during particle detachment. Time dependent changes in adhesion can result from plastic deformation that both increases the real effective contact area and reduces the stored energy available to assist in particle removal.
Preface
Biological Applications of Particle Adhesion Concepts
A Particle Adhesion Perspective on Metastasis
Adhesion of Cancer Cells to Endothelial Monolayers: A Study of Initial Attachment Versus Firm Adhesion
Cell-Cell Adhesion of Erythrocytes
Particle-Induced Phagocytic Cell Responses Are Material Dependent: Foreign Body Giant Cells vs. Osteoclasts from a Chick Chorioallantoic Membrane Particle-Implantation Model
The Body's Response to Deliberate Implants: Phagocytic Cell Responses to Large Substrata vs. Small Particles
The Body's Response to Inadvertent Implants: Respirable Particles in Lung Tissues
Elastic and Viscoelastic Contributions to Understanding Particle Adhesion
Measurement of the Adhesion of a Viscoelastic Sphere to a Flat Non-Compliant Substrate
Surface Forces and the Adhesive Contact of Axisymmetric Elastic Bodies
Finite Element Modeling of Particle Adhesion: A Surface Energy Formalism
Creep Effects in Nanometer-Scale Contacts to Viscoelastic Materials: A Status Report
Particle Surface Interactions That Influence Adhesion
Experiments and Engineering Models of Microparticle Impact and Deposition
The Adhesion of Irregularly-Shaped 8 µm Diameter Particles to Substrates: The Contributions of Electrostatic and van der Waals Interactions
Electrical Conductivity Through Particles
Copper-Based Conductive Polymers: A New Concept in Conductive Resins
Exploring Particle Adhesion with Single Particle Experiments
Interactions Between Micron-Sized Glass Particles and Poly(dimethyl siloxane) in the Absence and Presence of Applied Load
Atomic Force Microscope Techniques for Adhesion Measurements
Limitation of the Young-Dupré Equation in the Analysis of Adhesion Forces Involving Surfactant Solutions
Mechanical Detachment of Nanometer Particles Strongly Adhering to a Substrate: An Application of Corrosive Tribology
Advances in Controlling the Attachment and Removal of Groups of Particles
The Effect of Relative Humidity on Particle Adhesion and Removal
The Effect of Time and Humidity on Particle Adhesion and Removal
Recent Theoretical Results for Nonequilibrium Deposition of Submicron Particles
Aerosol Particle Removal and Re-Entrapment in Turbulent Channel Flows – A Direct Numerical Simulation Approach
particle adhesion theory and experiment
adhesion particle
z-particle
x particles physics
x particles abstract
particle adhesion
fundamentals of adhesion and interfaces
Tags: David J Quesnel, Ronald S Rimai, Louis H Sharpe, Particle, Adhesion
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