Modeling of capillary force between particles with unequal contact angle

Dongling Wu; Ping Zhou; Geoff Wang; Baojun Zhao; Tony Howes; Wei Chen

doi:10.1016/j.powtec.2020.08.037

Modeling of capillary force between particles with unequal contact angle

Dongling Wu, Ping Zhou, Geoff Wang, Baojun Zhao, Tony Howes, Wei Chen^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

16 Citations (Scopus)

Abstract

When two particles with a thin liquid film are colliding toward each other, liquid films merge to form a pendular liquid bridge, which may induce a strong capillary force. The capillary force is determined by the particle size as well as contact parameters, such as liquid volume, contact angles of liquid on each particle, and the separation distance. Upon considering all these impacting factors, a general and explicit capillary force model was established in this study with a minimal energy method by using the software-Surface Evolver. The developed model was validated by comparing results with those obtained through an analytical expression and previous closed-form models. The developed capillary force model is capable of predicting the capillary force between two particles with different diameters and contact angles (≤50°) with an error of less than 15%.

Original language	English
Pages (from-to)	390-397
Number of pages	8
Journal	Powder Technology
Volume	376
DOIs	https://doi.org/10.1016/j.powtec.2020.08.037
Publication status	Published - Oct 2020
Externally published	Yes

Keywords

Capillary force
Contact angle
Liquid bridge
Surface tension

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10.1016/j.powtec.2020.08.037

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title = "Modeling of capillary force between particles with unequal contact angle",

abstract = "When two particles with a thin liquid film are colliding toward each other, liquid films merge to form a pendular liquid bridge, which may induce a strong capillary force. The capillary force is determined by the particle size as well as contact parameters, such as liquid volume, contact angles of liquid on each particle, and the separation distance. Upon considering all these impacting factors, a general and explicit capillary force model was established in this study with a minimal energy method by using the software-Surface Evolver. The developed model was validated by comparing results with those obtained through an analytical expression and previous closed-form models. The developed capillary force model is capable of predicting the capillary force between two particles with different diameters and contact angles (≤50°) with an error of less than 15%.",

keywords = "Capillary force, Contact angle, Liquid bridge, Surface tension",

author = "Dongling Wu and Ping Zhou and Geoff Wang and Baojun Zhao and Tony Howes and Wei Chen",

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T1 - Modeling of capillary force between particles with unequal contact angle

AU - Wu, Dongling

AU - Zhou, Ping

AU - Wang, Geoff

AU - Zhao, Baojun

AU - Howes, Tony

AU - Chen, Wei

PY - 2020/10

Y1 - 2020/10

N2 - When two particles with a thin liquid film are colliding toward each other, liquid films merge to form a pendular liquid bridge, which may induce a strong capillary force. The capillary force is determined by the particle size as well as contact parameters, such as liquid volume, contact angles of liquid on each particle, and the separation distance. Upon considering all these impacting factors, a general and explicit capillary force model was established in this study with a minimal energy method by using the software-Surface Evolver. The developed model was validated by comparing results with those obtained through an analytical expression and previous closed-form models. The developed capillary force model is capable of predicting the capillary force between two particles with different diameters and contact angles (≤50°) with an error of less than 15%.

AB - When two particles with a thin liquid film are colliding toward each other, liquid films merge to form a pendular liquid bridge, which may induce a strong capillary force. The capillary force is determined by the particle size as well as contact parameters, such as liquid volume, contact angles of liquid on each particle, and the separation distance. Upon considering all these impacting factors, a general and explicit capillary force model was established in this study with a minimal energy method by using the software-Surface Evolver. The developed model was validated by comparing results with those obtained through an analytical expression and previous closed-form models. The developed capillary force model is capable of predicting the capillary force between two particles with different diameters and contact angles (≤50°) with an error of less than 15%.

KW - Capillary force

KW - Contact angle

KW - Liquid bridge

KW - Surface tension

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DO - 10.1016/j.powtec.2020.08.037

M3 - Article

AN - SCOPUS:85089913626

SN - 0032-5910

VL - 376

SP - 390

EP - 397

JO - Powder Technology

JF - Powder Technology

ER -

Modeling of capillary force between particles with unequal contact angle

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Keywords

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