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Auteur principal: Feng, James Q
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2501.08344
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author Feng, James Q
author_facet Feng, James Q
contents Pendular liquid bridges with concave meridians between two equal rigid spheres are mathematically studied emphasizing some less analyzed facts in the literature. Discrepancies from the numerical solution of the Young-Laplace equation are examined among typical simplifying approximations and a few curve-fitting formulas. An in-depth analysis is provided about the important role of separation distance between spheres played in pendular ring formation via capillary condensation at a given relative humidity and the strength of subsequent capillary forces. For most practical situations, the toroidal approximation could be reasonably accurate (especially with diminishing separation distance) and provide valuable mathematical insights at least in a qualitative sense with its relatively simple analytical formulas. Using the elliptic meridional profile generally offers more accurate approximations, but with such complicated analytical formulas that it would limit its convenience for practical applications. With a few examples, the present study shows that curve-fitting formulas cannot be perfect and, by their approximative nature, would always leave room for improvements; therefore, care should be taken when applying curve-fitting formulas, to avoid undesirable errors
format Preprint
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institution arXiv
publishDate 2025
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spellingShingle A study of pendular liquid bridge between two equal solid spheres
Feng, James Q
Fluid Dynamics
Soft Condensed Matter
Pendular liquid bridges with concave meridians between two equal rigid spheres are mathematically studied emphasizing some less analyzed facts in the literature. Discrepancies from the numerical solution of the Young-Laplace equation are examined among typical simplifying approximations and a few curve-fitting formulas. An in-depth analysis is provided about the important role of separation distance between spheres played in pendular ring formation via capillary condensation at a given relative humidity and the strength of subsequent capillary forces. For most practical situations, the toroidal approximation could be reasonably accurate (especially with diminishing separation distance) and provide valuable mathematical insights at least in a qualitative sense with its relatively simple analytical formulas. Using the elliptic meridional profile generally offers more accurate approximations, but with such complicated analytical formulas that it would limit its convenience for practical applications. With a few examples, the present study shows that curve-fitting formulas cannot be perfect and, by their approximative nature, would always leave room for improvements; therefore, care should be taken when applying curve-fitting formulas, to avoid undesirable errors
title A study of pendular liquid bridge between two equal solid spheres
topic Fluid Dynamics
Soft Condensed Matter
url https://arxiv.org/abs/2501.08344