Particle Adhesion (Hardcover)

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|im 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-Dupre 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-entrainment in Turbulent Channel Flows-A Direct Numerical Simulation Approach