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The book provides a comprehensive and easily accessible reference source covering all important aspects of particle adhesion and removal. The core objective is to cover both fundamental and applied aspects of particle adhesion and removal with emphasis on recent developments. Among the topics to be covered include: 1. Fundamentals of surface forces in particle adhesion and removal. 2. Mechanisms of particle adhesion and removal. 3. Experimental methods (e.g. AFM, SFA,SFM,IFM, etc.) to understand particle-particle and particle-substrate interactions. 4. Mechanics of adhesion of micro- and nanoscale particles. 5. Various factors affecting particle adhesion to a variety of substrates. 6. Surface modification techniques to modulate particle adhesion. 7. Various cleaning methods (both wet & dry) for particle removal. 8. Relevance of particle adhesion in a host of technologies ranging from simple to ultra-sophisticated.
The book provides a comprehensive and easily accessible reference source covering all important aspects of particle adhesion and removal. The core objective is to cover both fundamental and applied aspects of particle adhesion and removal with emphasis on recent developments. Among the topics to be covered include: 1. Fundamentals of surface forces in particle adhesion and removal. 2. Mechanisms of particle adhesion and removal. 3. Experimental methods (e.g. AFM, SFA,SFM,IFM, etc.) to understand particle-particle and particle-substrate interactions. 4. Mechanics of adhesion of micro- and nanoscale particles. 5. Various factors affecting particle adhesion to a variety of substrates. 6. Surface modification techniques to modulate particle adhesion. 7. Various cleaning methods (both wet & dry) for particle removal. 8. Relevance of particle adhesion in a host of technologies ranging from simple to ultra-sophisticated.
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. Processes such as these, based on the fundamentals tenets of particle adhesion, are now finding applications across many disciplines leading to a rich and rapid development of knowledge. This book documents the use of particle adhesion concepts in a variety of disciplines. Fields as varied as the cleaning of semiconductors, to the controlling of cancer metastasis, to the abatement of environmental pollution all benefit from applications of particle adhesion concepts.
ties on adhesion (Chapter V); and the detachment of particles by an air stream (Chapter X). The other chapters have undergone substantial revision: New material has been introduced, and topics such as autohesion, wetting, film ad hesion, and surface washing have been eliminated. The expansion of research on adhesive interaction has led to many joint endeavors with students and followers; the author gives special thanks to G. A. Serebryakov, K. A. Lazarev, E. I. Andrianov, E. I. Dergunov, and E. A. Ronginskii. Many years of creative cooperation bind the author to the staff of the Omsk Branch of the Frunze Polytechnic Institute, headed by Zh. T. Tekenov, Candidate of Physico mathematical Sciences. The author thanks Professor G.1. Fuks, Doctor of Chemical Sciences, for his help in the preparation of the first and second editions of this monograph; his constructive criticism and gracious assistance have raised the level of quality of the material set forth here. In the preparation of this book, as in all the previous books, inestimable help has been given by my wife, Antonina Alekseevna Zimon, without whose participation it would have been unthinkable to carry out such a volume of work.
Self-Cleaning of Surfaces and Water Droplet Mobility deals with the self-cleaning of hydrophobic surfaces. Chapters cover the basics of wetting states of fluids and surface characteristics in terms of texture topology and free energy. The self-cleaning aspects of surfaces, such as various synthesizing and fabrication processes are then introduced and discussed, along with environmental dust properties, including elemental compositions, particle sizes and shapes, and their chemo-mechanics characteristics. In addition, mud formation in humid air, as well as ambient and dry mud adhesion on optically transparent surfaces is explored, as is water droplet dynamics on hydrophilic and hydrophobic surfaces, amongst other topics. The book fills the gap between the physical fundamentals of surface energy and texture characteristics for practical applications of surface cleaning and provides a basic understanding of the self-cleaning of surfaces that will be idea for academics, researchers and students. - Showcases the fundamental aspects of the self-cleaning of surfaces - Includes practical applications in energy and other sectors - Contains a review of the characterization of environmental dust on hydrophilic and hydrophobic surfaces - Discusses the fabrication and optimization of surfaces towards self-cleaning - Presents practical applications of the self-cleaning of surfaces via water droplet mobility
This monograph describes the physical principles of adhesion between particles and surfaces. These principles are applied to pharmaceutical processes involved in the manufacture of solid dosage forms such as powders, granules, tablets and dry powder inhalations. To help in the understanding of these systems, physical properties of solid surfaces, and an introduction to the theory of friction is given. Techniques for measuring particle adhesion and fracture mechanical properties of powders are introduced, as far as these are relevant to the processes discussed. The philosophy of the book deviates from that of standard pharmaceutical textbooks, in that it focuses primarily on physical principles involved in the manufacture of dosage forms rather than describing these processes purely by observation.
The understanding of adhesion and interfacial effects has benefited from various technological advances in recent years. Advances in laboratory equipment, analytical tools such as the nanoindentor, SIMS, and ESCA, and improvements in computing technology have greatly expanded the relevant body of knowledge. Rapid progress in adhesion and interfacial science has made dissemination of results in a timely fashion more important than ever. Accordingly, the editors of this book organized an ACS symposium, sponsored by the Division of Polymer Chemistry, entitled Fundamentals of Adhesion and Interfaces. The papers in this volume were selected from those presented at the symposium.
This popular science title covers adhesion science in an easily accessible entertaining manner. As well as outlining types of adhesion and their importance in everyday life, the book covers interesting future applications of adhesion and inspiration taken from nature. Ideal for students and the scientifically minded reader this book provides a fascinating introduction to the science of what makes things stick.
This volume documents the proceedings of the 8th International Symposium on Particles on Surfaces: Detection, Adhesion and Removal held in Providence, Rhode Island, June 24a 26, 2002. The study of particles on surfaces is extremely crucial in a host of diverse technological areas, ranging from microelectronics to optics to biomedical. In a world o