A New Method for Measuring the Dynamic Surface Tension of Complex-mixture Liquid Drops
A New Method for Measuring the Dynamic Surface Tension of Complex-mixture Liquid Drops

Author:

Publisher:

Published: 1994

Total Pages: 58

ISBN-13:

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A simple and accurate technique has been developed for measuring dynamic surface tension. The new technique is based on growing a drop at the end of a fine capillary into another immiscible fluid and can follow the changes in tension at a freshly formed interface during its entire period of evolution. When the relative importance of the surface tension force is large compared to gravitational and viscous forces, shapes of growing drops are sections of spheres and the difference in pressure between the interior and the exterior of the drop {triangle}p is related to the surface tension [sigma] and the radius of curvature R by the static Young-Laplace formula {triangle}p = 2[sigma]/R. In contrast to related work, the new technique can determine the surface tension of an interface with a surface age of a few to tens of milliseconds by measuring transient drop shapes and pressures in 1/6 to 1 millisecond. The capabilities of the new method are demonstrated by performing tension measurements on liquid systems that do not exhibit dynamic surface tension as well as ones that exhibit significant dynamic tension effects. Tension measurements made with surfactant-laden solutions show that variation of surface tension is nonmonotonic in time. In such systems, the dynamic behavior of surface tension is shown to depend upon both the rate of interfacial dilatation and that of surfactant transport. A maximum in the surface tension is attained when the lowering of the surfactant concentration on the drop interface due to its dilatation is balanced by the addition of fresh surfactant to the interface by convection and diffusion.

Computational Methods for Complex Liquid-Fluid Interfaces
Computational Methods for Complex Liquid-Fluid Interfaces

Author: Mohammad Taeibi Rahni

Publisher: CRC Press

Published: 2015-11-11

Total Pages: 549

ISBN-13: 1498722091

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Computational Methods for Complex Liquid-Fluid Interfaces highlights key computational challenges involved in the two-way coupling of complex liquid-fluid interfaces. The book covers a variety of cutting-edge experimental and computational techniques ranging from macro- to meso- and microscale approaches (including pivotal applications). As example

Surface Tensiometry at High Temperatures
Surface Tensiometry at High Temperatures

Author: Ala Moradian

Publisher:

Published: 2007

Total Pages: 390

ISBN-13: 9780494395721

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Surface tension is the dominant parameter in many fundamental studies in fluid mechanics and plays a major role in many industrial processes. Methods for measuring surface tension of liquids may vary according to different temperature ranges. The objective of this study is to propose a new methodology for measuring surface tension of materials with high melting point. In this new containerless method, an atmospheric radio-frequency Inductively Coupled Plasma (RF-ICP) torch melts horizontal metallic rods, and a high-speed camera records the drop formation process caused by melting. The drop shapes are fitted by the theoretical Young-Laplace (YL) profiles to determine the surface tension. In addition to the measurements based on the drop shapes, this methodology provides the possibility of validating the results with three other methods for measuring surface tension: the drop weight, pendant drop, and drop oscillation method. The drop oscillation method was used to measure the surface tension and viscosity, based on the resonance frequency and damping rate of the oscillations, respectively. From the photographs of the melting process, the solid-liquid interface was found to be inclined at an angle to the horizontal. The effect of this inclination on surface tension measurement is investigated. The dynamics of drop formation are modeled numerically as drop ejection from a nozzle. The numerical model solves the axisymmetric Navier-Stokes equations, for both the melt and the surrounding gas. The numerical pendant drops are compared with the theoretical YL profiles. A detailed study of the differences between numerical and theoretical profiles demonstrates some of the hydrodynamic effects influencing the surface tension measurement methods that are based on drop profiles. Good agreement between the numerical and the theoretical drop profiles validated the procedure of fitting YL profiles on dynamic drop profiles during drop formation. In addition, using the proposed methodology, surface tension values measured based on the drop shapes can be incorporated into the numerical code. Therefore, experimental drops and numerical drops can be compared and the viscosity of the melt can be determined. This method is established based on copper and nickel; however, it can be applied to metals, alloys, and ceramics.

Liquid Film Coating
Liquid Film Coating

Author: P.M. Schweizer

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 794

ISBN-13: 9401153426

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This multi-authored volume provides a comprehensive and in-depth account of the highly interdisciplinary science and technology of liquid film coating. The book covers fundamental principles from a wide range of scientific disciplines, including fluid mechanics aand transport phenomena, capillary hydrodynamics, surface and colloid science. The authors, all acknowledged eperts in their fields, represent a balance between industrial and academic points of view. Throughout the text, many case studies illustrate how scientific principles together with advanced experimental and theoretical methods are applied to develop and optimize manufacturing processes of eve increasing sophiatication and efficiency. In the first part of the book, the authors systematically recount the underlying physical principles and important material properties. The second part of the book gives a comprehensive overview of the most advanced experimental, mathematical and computational methods available today to investigate coating processes. The third part provides an overview and critical literature review for all major classes of liquid film coating processes of industrial importance.

Microscale Surface Tension and Its Applications
Microscale Surface Tension and Its Applications

Author: Pierre Lambert

Publisher: MDPI

Published: 2019-10-21

Total Pages: 240

ISBN-13: 3039215647

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Building on advances in miniaturization and soft matter, surface tension effects are a major key to the development of soft/fluidic microrobotics. Benefiting from scaling laws, surface tension and capillary effects can enable sensing, actuation, adhesion, confinement, compliance, and other structural and functional properties necessary in micro- and nanosystems. Various applications are under development: microfluidic and lab-on-chip devices, soft gripping and manipulation of particles, colloidal and interfacial assemblies, fluidic/droplet mechatronics. The capillary action is ubiquitous in drops, bubbles and menisci, opening a broad spectrum of technological solutions and scientific investigations. Identified grand challenges to the establishment of fluidic microrobotics include mastering the dynamics of capillary effects, controlling the hysteresis arising from wetting and evaporation, improving the dispensing and handling of tiny droplets, and developing a mechatronic approach for the control and programming of surface tension effects. In this Special Issue of Micromachines, we invite contributions covering all aspects of microscale engineering relying on surface tension. Particularly, we welcome contributions on fundamentals or applications related to: Drop-botics: fluidic or surface tension-based micro/nanorobotics: capillary manipulation, gripping, and actuation, sensing, folding, propulsion and bio-inspired solutions; Control of surface tension effects: surface tension gradients, active surfactants, thermocapillarity, electrowetting, elastocapillarity; Handling of droplets, bubbles and liquid bridges: dispensing, confinement, displacement, stretching, rupture, evaporation; Capillary forces: modelling, measurement, simulation; Interfacial engineering: smart liquids, surface treatments; Interfacial fluidic and capillary assembly of colloids and devices; Biological applications of surface tension, including lab-on-chip and organ-on-chip systems.

Bubble and Drop Interfaces
Bubble and Drop Interfaces

Author: Miller

Publisher: VSP

Published: 2011-06-09

Total Pages: 567

ISBN-13: 9004174958

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The book aims at describing the most important experimental methods for characterizing liquid interfaces, such as drop profile analysis, bubble pressure and drop volume tensiometry, capillary pressure technique, and oscillating drops and bubbles.