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Author: Palak Jain
Publisher:
ISBN:
Category : Adhesion
Languages : en
Pages : 0
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Book Description
Wetting is the process where solid surfaces attempt to create a common interface when they come in contact with the liquid droplets. To characterize the wetting and spreading between a liquid droplet and a solid surface, various techniques have been established. The most common technique have been used past over two decades is the measurement of contact angle, defined as the angle formed at the interface where all three phases (solid, liquid, surrounding medium) meet. Although contact angle measurements have been studied for over 200 years, the authentic procedure or guidelines to measure contact angle is still in debate. Some authors prefer to quantify surface wettability using dynamic contact angles, whereas some authors report static contact angles measured between a liquid drop sitting on a solid surface. This study discusses the alternative and reliable method for quantification of wettability and adhesion, \textit{i.e,} adhesion force-based measurements using a micro-electronic mechanical balance system. In this technique, a drop holder is suspended and a liquid drop of the desired volume is generated at the tip of the holder facing toward the characterizing substrate. A series of commands has been initialized such as interaction and formation of solid-liquid interface, compression, retraction, and drop detachment, while continuously recording the interactive vertical forces, experienced by the force sensor. There are various parameters/variables involved in this study, which resulted in the variation of droplet base diameter and eventually affect adhesion force. These parameters such as drop volume, retracting speed, and compression allow to maneuver the adhesion force to obtain the required adherence or attachment between two surfaces. After establishing the guidelines to record reproducible and repeatable ( R \& R) results and studying the effect of these commonly operating parameters on adhesion force, we have also discussed the effect of the surrounding medium and performed experiments in the liquid medium. Unlike the air medium, we observed that the force sensor experienced other forces as well along with interactive forces underwater. Forces such as buoyancy and hydrostatic pressure must be subtracted from total vertical force to get absolute adhesion force. Lastly, components of adhesion force; surface tension, and Laplace pressure force are also critically analyzed with respect to drop volume and compression. This study also introduces the normalization of total adhesion force and its components to negate the influence of varied droplet base diameter.
Author: Palak Jain
Publisher:
ISBN:
Category : Adhesion
Languages : en
Pages : 0
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Book Description
Wetting is the process where solid surfaces attempt to create a common interface when they come in contact with the liquid droplets. To characterize the wetting and spreading between a liquid droplet and a solid surface, various techniques have been established. The most common technique have been used past over two decades is the measurement of contact angle, defined as the angle formed at the interface where all three phases (solid, liquid, surrounding medium) meet. Although contact angle measurements have been studied for over 200 years, the authentic procedure or guidelines to measure contact angle is still in debate. Some authors prefer to quantify surface wettability using dynamic contact angles, whereas some authors report static contact angles measured between a liquid drop sitting on a solid surface. This study discusses the alternative and reliable method for quantification of wettability and adhesion, \textit{i.e,} adhesion force-based measurements using a micro-electronic mechanical balance system. In this technique, a drop holder is suspended and a liquid drop of the desired volume is generated at the tip of the holder facing toward the characterizing substrate. A series of commands has been initialized such as interaction and formation of solid-liquid interface, compression, retraction, and drop detachment, while continuously recording the interactive vertical forces, experienced by the force sensor. There are various parameters/variables involved in this study, which resulted in the variation of droplet base diameter and eventually affect adhesion force. These parameters such as drop volume, retracting speed, and compression allow to maneuver the adhesion force to obtain the required adherence or attachment between two surfaces. After establishing the guidelines to record reproducible and repeatable ( R \& R) results and studying the effect of these commonly operating parameters on adhesion force, we have also discussed the effect of the surrounding medium and performed experiments in the liquid medium. Unlike the air medium, we observed that the force sensor experienced other forces as well along with interactive forces underwater. Forces such as buoyancy and hydrostatic pressure must be subtracted from total vertical force to get absolute adhesion force. Lastly, components of adhesion force; surface tension, and Laplace pressure force are also critically analyzed with respect to drop volume and compression. This study also introduces the normalization of total adhesion force and its components to negate the influence of varied droplet base diameter.
Author: Neda Ojaghlou
Publisher:
ISBN:
Category : Fluid dynamics
Languages : en
Pages : 127
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Book Description
The adhesion at solid/liquid interface plays a fundamental role in diverse fields and helps explain the structure and physical properties of interfaces, at the atomic scale, for example in catalysis, crystal growth, lubrication, electrochemistry, colloidal system, and in many biological reactions. Unraveling the atomic structure at the solid/liquid interface is, therefore, one of the major challenges facing the surface science today to understand the physical processes in the phenomena such as surface coating, self-cleaning, and oil recovery applications. In this thesis, a variety of theory/computational methods in statistical physics and statistical mechanics are used to improve understanding of water adhesion at solid/liquid interfaces. In here, we addressed two separated, but interconnected problems: First, we consider water adhesion on fiber/surface, responsible for the emergence of droplet residue upon droplet detachment. In this project, we study the mechanism of water droplet detachment and retention of residual water on smooth hydrophilic fibers and surfaces using nonequilibrium molecular dynamics simulations. We investigate how the applied force affects the breakup of a droplet and how the minimal detaching force per unit mass decreases with droplet size. We extract scaling relations that allow extrapolation of our findings to larger length scales that are not directly accessible by molecular models. We find that the volume of the residue on a fiber varies nonmonotonically with the detaching force, reaching the maximal size at an intermediate force and associated detachment time. The strength of this force decreases with the size of the drop, while the maximal residue increases with the droplet volume, V, sub-linearly, in proportion to the V2/3. Second, we address the adhesion on conducting graphene. We improved the graphene model by incorporating the conductivity of graphene sheet using the fluctuating charge technique of Constant Potential Molecular Dynamics (CPMD). We evaluated the wettability by measuring the contact angle of cylindrical water drops on a conducting graphene sheet. We found that the CA of a water droplet on a graphene sheet supported by water is lower than in the absence of water under graphene. Our calculations reveal effective attractions between partial charges of equal sign across the conducting graphene sheet. Attractive correlations are attributed to the formation of the highly localized image charges on carbon atoms between the partially charged sites of water molecules on both sides of graphene. By performing additional computations with nonpolar diiodomethane, we confirm that graphene transmits both polar and dispersive interactions. These findings are important in applications including sensors, fuel cell membranes, water filtration, and graphene-based electrode material to enhance the supercapacitor performance. A challenge for future work concerns dynamic polarization response of wetted graphene at alternating (AC) field condition.
Author: HAROLD JUDSON OSTERHOF
Publisher:
ISBN:
Category :
Languages : en
Pages : 286
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Book Description
Author: D. S. Rimai
Publisher: Walter de Gruyter GmbH & Co KG
ISBN: 311231851X
Category : Science
Languages : en
Pages : 304
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Book Description
No detailed description available for "Fundamentals of Adhesion and Interfaces".
Author: Anatolii D. Zimon
Publisher: Springer Science & Business Media
ISBN: 1461585767
Category : Technology & Engineering
Languages : en
Pages : 445
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Book Description
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.
Author: Wojciech (Voytek) Gutowski
Publisher: CRC Press
ISBN: 9004201742
Category : Science
Languages : en
Pages : 374
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Book Description
The surface of an object is the first thing we see or touch. Nearly every article or object we encounter at home, in industry, land transportation, aerospace, or the medical field in some way uses an adhesive, a sealant, or a decorative coating. Adhesion science provides the technology and the know-how behind these applications. Recent Advances in
Author: B. V. Deryagin
Publisher: Springer
ISBN:
Category : Science
Languages : en
Pages : 488
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Book Description
I am very glad to write a few introductory words to this important book by Professor Deryagin and his colleagues Drs. Krotova and Smilga. Ever since he first burst on the scientific scene in the 1930s, Professor Deryagin has continued to produce papers of seminal value in the general field of surface science, particularly those aspects of interest to physical chemists and colloid scientists. Many of the ideas introduced by Professor Deryagin and his long list of collaborators have entered into the broad stream of sci entific thought. Of course not all these ideas have been accepted and some have generated vigorous controversy. I am not sure that Professor Deryagin would have it otherwise for I sometimes have the feeling that he enjoys the cut and thrust of the scientific dia lectic. But none of these differences of opinion can detract from the quality of his work over many decades and from the impact of his contributions to surface science. In particular the ideas which he introduced with Landau (developed later but quite independently by Verwey and Overbeek in Holland) have laid the foundation for the whole of our present approach to colloid stability (the DLVO theory). A large part of Professor Deryagin's work has been con cerned with solid -liquid and liquid -liquid interactions. In the present book he and Drs.
Author: K. L. Mittal
Publisher: John Wiley & Sons
ISBN: 1119640377
Category : Technology & Engineering
Languages : en
Pages : 704
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Book Description
This unique book presents ways to mitigate the disastrous effects of snow/ice accumulation and discusses the mechanisms of new coatings deicing technologies. The strategies currently used to combat ice accumulation problems involve chemical, mechanical or electrical approaches. These are expensive and labor intensive, and the use of chemicals raises serious environmental concerns. The availability of truly icephobic surfaces or coatings will be a big boon in preventing the devastating effects of ice accumulation. Currently, there is tremendous interest in harnessing nanotechnology in rendering surfaces icephobic or in devising icephobic surface materials and coatings, and all signals indicate that such interest will continue unabated in the future. As the key issue regarding icephobic materials or coatings is their durability, much effort is being spent in developing surface materials or coatings which can be effective over a long period. With the tremendous activity in this arena, there is strong hope that in the not too distant future, durable surface materials or coatings will come to fruition. This book contains 20 chapters by subject matter experts and is divided into three parts— Part 1: Fundamentals of Ice Formation and Characterization; Part 2: Ice Adhesion and Its Measurement; and Part 3: Methods to Mitigate Ice Adhesion. The topics covered include: factors influencing the formation, adhesion and friction of ice; ice nucleation on solid surfaces; physics of ice nucleation and growth on a surface; condensation frosting; defrosting properties of structured surfaces; relationship between surface free energy and ice adhesion to surfaces; metrology of ice adhesion; test methods for quantifying ice adhesion strength to surfaces; interlaboratory studies of ice adhesion strength; mechanisms of surface icing and deicing technologies; icephobicities of superhydrophobic surfaces; anti-icing using microstructured surfaces; icephobic surfaces: features and challenges; bio-inspired anti-icing surface materials; durability of anti-icing coatings; durability of icephobic coatings; bio-inspired icephobic coatings; protection from ice accretion on aircraft; and numerical modeling and its application to inflight icing.
Author: Hiroaki Masuda
Publisher: CRC Press
ISBN: 1439831882
Category : Science
Languages : en
Pages : 920
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Book Description
The Powder Technology Handbook, Third Edition provides a comprehensive guide to powder technology while examining the fundamental engineering processes of particulate technology. The book offers a well-rounded perspective on powder technologies that extends from particle to powder and from basic problems to actual applications. Pro
Author: L.H. Lee
Publisher: Springer Science & Business Media
ISBN: 1489920730
Category : Science
Languages : en
Pages : 466
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Book Description
