metallic meshes
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2021 ◽  
Vol 414 ◽  
pp. 128891
Author(s):  
Louidi Lauer Albornoz ◽  
Juan Pablo Bortolozzi ◽  
Ezequiel David Banús ◽  
Paula Brussino ◽  
Salatiel Wohlmuth da Silva ◽  
...  

ACS Photonics ◽  
2021 ◽  
Author(s):  
Alexander W. Powell ◽  
Rhiannon C. Mitchell-Thomas ◽  
Shiyu Zhang ◽  
Darren A. Cadman ◽  
Alastair P. Hibbins ◽  
...  

Soft Matter ◽  
2021 ◽  
Author(s):  
Abba Abdulhamid Abubakar ◽  
Bekir Sami Yilbas ◽  
Hussain Al-Qahtani ◽  
Anwaruddin Siddiqui Mohammed

Rolling liquid droplets is of great interest for various applications including self-cleaning of surfaces. Interfacial resistance, in terms of pinning and shear rate, has a critical role in droplet rolling...


2020 ◽  
Vol 30 (7) ◽  
pp. 629-632
Author(s):  
Xieming Xu ◽  
Zhongxi Lin ◽  
Shuaihua Wang ◽  
Shaofan Wu

Fluids ◽  
2020 ◽  
Vol 5 (2) ◽  
pp. 81 ◽  
Author(s):  
Konstantinos Vontas ◽  
Cristina Boscariol ◽  
Manolia Andredaki ◽  
Anastasios Georgoulas ◽  
Cyril Crua ◽  
...  

Liquid penetration analysis in porous media is of great importance in a wide range of applications such as ink jet printing technology, painting and textile design. This article presents an investigation of droplet impingement onto metallic meshes, aiming to provide insights by identifying and quantifying impact characteristics that are difficult to measure experimentally. For this purpose, an enhanced Volume-Of-Fluid (VOF) numerical simulation framework is utilised, previously developed in the general context of the OpenFOAM CFD Toolbox. Droplet impacts on metallic meshes are performed both experimentally and numerically with satisfactory degree of agreement. From the experimental investigation three main outcomes are observed—deposition, partial imbibition, and penetration. The penetration into suspended meshes leads to spectacular multiple jetting below the mesh. A higher amount of liquid penetration is linked to higher impact velocity, lower viscosity and larger pore size dimension. An estimation of the liquid penetration is given in order to evaluate the impregnation properties of the meshes. From the parametric analysis it is shown that liquid viscosity affects the adhesion characteristics of the drops significantly, whereas droplet break-up after the impact is mostly controlled by surface tension. Additionally, wettability characteristics are found to play an important role in both liquid penetration and droplet break-up below the mesh.


2018 ◽  
Vol 59 (12) ◽  
Author(s):  
Cristina Boscariol ◽  
Sanjeev Chandra ◽  
Dipak Sarker ◽  
Cyril Crua ◽  
Marco Marengo

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