Drag on a spheroidal particle at clean and surfactant-laden interfaces: effects of particle aspect ratio, contact angle and surface viscosities

ABSTRACTTwo-dimensional cellular automata simulations were carried out to study the case of the crystallization (or recrystallization) of a matrix containing an inert, immobile second phase. A range of particle area fractions and aspect ratios were investigated under continuous grain nucleation conditions, assuming that the effect of particles is limited to geometric impingement upon contact with the growing grains. Systematic deviations from the classical Johnson, Mehl, Avrami, Kolmogo-rov equation for single-phase materials are observed with increasing particle aspect ratio and particle fraction. Inert particles also influence both mean size and mean aspect ratio of the final grains.

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Controlling shear jamming in dense suspensions via the particle aspect ratio

Soft Matter ◽

10.1039/c9sm00335e ◽

2019 ◽

Vol 15 (18) ◽

pp. 3649-3654 ◽

Cited By ~ 8

Author(s):

Nicole M. James ◽

Huayue Xue ◽

Medha Goyal ◽

Heinrich M. Jaeger

Keyword(s):

Aspect Ratio ◽

Shear Thickening ◽

Dense Suspensions ◽

Shear Jamming ◽

Particle Aspect Ratio

Dense suspensions of particles in a liquid exhibit rich, non-Newtonian behaviors such as shear thickening (ST) and shear jamming (SJ).

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Degradation of release layer on high aspect ratio mold by contact angle measurement

Microelectronic Engineering ◽

10.1016/j.mee.2010.12.021 ◽

2011 ◽

Vol 88 (8) ◽

pp. 2141-2144 ◽

Cited By ~ 17

Author(s):

Junki Takahashi ◽

Jun Taniguchi

Keyword(s):

Contact Angle ◽

Aspect Ratio ◽

High Aspect Ratio ◽

Contact Angle Measurement ◽

Angle Measurement

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Determination of the aspect ratio of a spheroidal particle by stereo observation

Materials Characterization ◽

10.1016/1044-5803(95)00014-3 ◽

1995 ◽

Vol 34 (2) ◽

pp. 167-172 ◽

Cited By ~ 2

Author(s):

Susumu Onaka

Keyword(s):

Aspect Ratio ◽

Spheroidal Particle

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Impact of Altering Aspect Ratio of the Loading Particles on a Suspension’s Thermal Conductivity

Volume 10: Heat Transfer, Fluid Flows, and Thermal Systems, Parts A, B, and C ◽

10.1115/imece2008-67854 ◽

2008 ◽

Author(s):

A. S. Cherkasova ◽

J. W. Shan

Keyword(s):

Heat Transfer ◽

Thermal Conductivity ◽

Carbon Nanotubes ◽

Silicon Carbide ◽

Aspect Ratio ◽

Effective Medium Theory ◽

Detailed Comparison ◽

Interfacial Resistance ◽

Micro Particles ◽

Particle Aspect Ratio

It has been recognized that heat-transfer fluids used to convey thermal energy produced by one device to another can exhibit significant increases in thermal conductivity with the addition of highly conductive particles. Suspensions of nano- and micro-particles have attracted the most recent interest because of their enhanced stability against sedimentation, reduction in potential for clogging a flow system, as well as the tantalizing possibility of unexpected enhancements in thermal conductivity that have been reported in some experiments. Among various suspensions, considerable attention has focused on those containing large-aspect-ratio particles, such as carbon nanotubes. Although recent experiments have demonstrated enormous heat-transfer enhancements in these fluids, such increases were reportedly not in agreement with existing macroscale theories [1–3]. In this research we report on an experimental study of the effects of particle aspect ratio on the effective thermal conductivity of micro- and nano-particle suspensions. The influence of particle aspect ratio on the thermal properties of suspensions was first studied in dispersions of micron-sized, silicon-carbide particles with varying aspect ratio. To carry out a detailed comparison with theoretical predictions, particle aspect ratio and size distributions were measured. It is shown that the conductivity of the silicon-carbide suspensions can be quantitatively predicted by an effective-medium theory (EMT), provided the volume-weighted aspect ratio of the particles is used. The particle-aspect-ratio effect was further studied in the suspensions of multi-walled carbon nanotubes. Experimental data on the thermal conductivity of nanotube suspensions could also be interpreted in terms of the aspect-ratio dependence predicted by EMT if the additional nanoscale effect of interfacial resistance was considered.

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Study On The Effect of Tunicate Cellulose Nanocrystals in The Preparation of Sodium Alginate-Based Enteric Capsule

10.21203/rs.3.rs-949624/v1 ◽

2021 ◽

Author(s):

Dezhong Xu ◽

Yanan Cheng ◽

Shuai Wu ◽

Qiuxia Zou ◽

Ajoy Kanti Mondal ◽

...

Keyword(s):

Contact Angle ◽

Aspect Ratio ◽

Tensile Stress ◽

Sodium Alginate ◽

Control Sample ◽

Maximum Tensile Stress ◽

Water Contact ◽

Elongation At Break ◽

Enteric Capsule

Abstract In this work, the tunicate cellulose nanocrystal (tCNC) was extracted from tunicate by bleaching and acid hydrolysis. It was used as filler in the preparation of sodium alginate-based enteric capsule. The addition of tCNC with high aspect ratio (65) rendered the enteric capsule excellent physical properties. Compared with the control sample, when the addition of tCNC was 10% (wt), the water contact angle of the capsule was enhanced by 46.0%, the opacity was increased by 356.8%, the maximum tensile stress was increased by 142.6%, the modulus of elasticity was increased by 240.3%, and the elongation at break was increased by 133.8%. In the in vitro degradation experiments, the capsule hardly degraded in the gastric environment (pH 1.2), while in the intestinal environment (pH 6.8), the degradation became slower with the increase of tCNC content, which was consistent with the properties of enteric capsule. This research developed a new direction for the application of tCNC in the pharmaceutical material productions.

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