评述如何优化基底表面粗糙度以提高润湿效果

Materials Open Research Pub Date : 2024-02-20 DOI:10.12688/materialsopenres.17683.1

Chiranth H.S., Pavan Kumar H.R., Sachin Rathod, Karnam Manojkuma Y, Satyanarayan, Basavaraj Kusammanavar

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引用次数: 0

摘要

表面粗糙度或纹理是液态流体或液态金属实现良好或不良润湿的关键参数之一。在某些应用中，光滑表面（镜面抛光）的表面粗糙度被认为是湿润性差的滑面，但在少数应用中，粗糙表面被认为具有更好的湿润性，尤其是对液态金属而言。因此，了解基底的最佳表面粗糙度以实现良好润湿至关重要。在本综述论文中，我们尝试找出基底的最佳粗糙度值，以便在基底和流体的基础上更好地润湿液态金属或合金。

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A Review on Optimum Substrate Surface Roughness to Create Better Wetting

Surface roughness or texture is one of the key parameters for liquid fluids or the liquid metals to achieve good or poor wetting. In certain applications surface roughness of smooth surface [mirror finish] is treated as slippery surface for poor wettability however in few applications’ roughness surfaces is considered as better wetting especially for liquid metals. In this regard, to understand the optimum surface roughness of the substrates to achieve good wetting is essential. In the present review paper, an attempt has been made to find the better roughness value of the substrate for better wetting of liquid metals or alloys based on substrates and fluids.

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Materials Open Research materials science-

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期刊介绍： Materials Open Research is a rapid open access publishing platform for a broad range of materials science research. The platform welcomes theoretical, experimental, and modelling approaches on the properties, characterization, design, structure, classification, processing, and performance of materials, and their applications. The platform is open to submissions from researchers, practitioners and experts, and all articles will benefit from open peer review.  Materials research underpins many significant and novel technologies which are set to revolutionize our society, and Materials Open Research is well-suited to ensure fast and full access to this research for the benefit of the academic community, industry, and beyond. The platform aims to create a forum for discussion and for the dissemination of research in all areas of materials science and engineering. This includes, but is not limited to, research on the following material classes: ● Biomaterials and biomedical materials ● Composites ● Economic minerals ● Electronic materials ● Glasses & ceramics ● Magnetic materials ● Metals & alloys ● Nanomaterials and nanostructures ● Polymers ● Porous materials ● Quantum materials ● Smart materials ● Soft matter ● Structural materials ● Superconducting materials ● Thin films Materials Open Research also focuses on a range of applications and approaches within materials science, including but not limited to: ● Additive manufacturing ● Computational materials & modelling ● Materials in energy & the environment ● Materials informatics ● Materials synthesis and processing In addition to original Research Articles, Materials Open Research will feature a variety of article types including Method Articles, Study Protocols, Software Tool Articles, Systematic Reviews, Data Notes, Brief Reports, and Opinion Articles. All research is welcome and will be published irrespective of the perceived level of interest or novelty; we accept confirmatory and replication studies, as well as negative and null results.  Materials Open Research is an Open Research Platform. All articles are published open access under a CC-BY license and authors benefit from fully transparent publishing and peer review processes. Where applicable, authors are asked to include detailed descriptions of methods and will receive editorial guidance on making all underlying data openly available in order to improve reproducibility. The platform will also provide the option to publish non-peer reviewed materials including technical reports, training materials, posters, slides, and other documents.