• Title/Summary/Keyword: wetting deformation

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Modeling the wetting deformation behavior of rockfill dams

  • Guo, Wanli;Chen, Ge;Wu, Yingli;Wang, Junjie
    • Geomechanics and Engineering
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    • v.22 no.6
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    • pp.519-528
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    • 2020
  • A mathematical wetting model is usually used to predict the deformation of core wall rockfill dams induced by the wetting effect. In this paper, a series of wetting triaxial tests on a rockfill was conducted using a large-sized triaxial apparatus, and the wetting deformation behavior of the rockfill was studied. The wetting strains were found to be related to the confining pressure and shear stress levels, and two empirical equations, which are regarded as the proposed mathematical wetting model, were proposed to express these properties. The stress and deformation of a core wall rockfill dam was studied by using finite element analysis and the proposed wetting model. On the one hand, the simulations of the wetting model can estimate well the observed wetting strains of the upstream rockfill of the dam, which demonstrated that the proposed wetting model is applicable to express the wetting deformation behavior of the rockfill specimen. On the other hand, the simulated additional deformation of the dam induced by the wetting effect is thought to be reasonable according to practical engineering experience, which indicates the potential of the model in dam engineering.

A Molecular Simulation on the Adhesion Control of Metal Thin Film-Carbon Nanotube Interface based on Thermal Wetting (Thermal wetting 현상이 탄소나노튜브-금속박막 계면의 응착력에 미치는 영향에 관한 분자 시뮬레이션 연구)

  • Sang-Hoon Lee;Hyun-Joon Kim
    • Tribology and Lubricants
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    • v.39 no.1
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    • pp.8-12
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    • 2023
  • This study presents a molecular simulation of adhesion control between carbon nanotube (CNT) and Ag thin film deposited on silicon substrate. Rough and flat Ag thin film models were prepared to investigate the effect of surface roughness on adhesion force. Heat treatment was applied to the models to modify the adhesion characteristics of the Ag/CNT interface based on thermal wetting. Simulation results showed that the heat treatment altered the Ag thin film morphology by thermal wetting, causing an increase in contact area of Ag/CNT interface and the adhesion force for both the flat and rough models changed. Despite the increase in contact area, the adhesion force of flat Ag/CNT interface decreased after the heat treatment because of plastic deformation of the Ag thin film. The result suggests that internal stress of the CNT induced by the substrate deformation contributes in reduction of adhesion. Contrarily, heat treatment to the rough model increases adhesion force because of the expanded contact area. The contact area is speculated to be more influential to the adhesion force rather than the internal stress of the CNT on the rough Ag thin film, because the CNT on the rough model contains internal stress regardless of the heat treatment. Therefore, as demonstrated by simulation results, the heat treatment can prevent delamination or wear of CNT coating on a rough metallic substrate by thermal wetting phenomena.

Compressibility of broken rock-fine grain soil mixture

  • Xu, Ming;Song, Erxiang;Cao, Guangxu
    • Geomechanics and Engineering
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    • v.1 no.2
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    • pp.169-178
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    • 2009
  • Due to the enormous amount of fills required, broken rock-fine grain soil mixtures have been increasingly used in the construction of high-fill foundations for airports, railways and highways in the mountain areas of western China. However, the compressibility behavior of those broken rock-fine grain soil mixtures remains unknown, which impose great uncertainties for the performance of those high-fill foundations. In this research, the mixture of broken limestone and a fine grain soil, Douposi soil, is studied. Large oedometer tests have been performed on specimens with different soil content. This research reveals the significant influence of fine grains on the compressibility of the mixture, including immediate settlement, creep, as well as wetting deformation.

Effect of Cycles of Wetting and Drying on the Behavior of Retaining Walls Using Reduced-Scale Model Tests (축소 모형실험을 이용한 습윤-건조 반복작용이 옹벽 구조물의 거동에 미치는 영향)

  • Yoo, Chung-Sik
    • Journal of the Korean Geotechnical Society
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    • v.29 no.12
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    • pp.25-34
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    • 2013
  • This paper presents the results of a reduced-scale physical model investigation into the behavior of retaining walls subject to cycles of wetting and drying due to rainfall infiltration. Reduced-scale model walls equipped with a water spraying system that can simulate the wetting process were first constructed and a series of tests were conducted with due consideration of different rainfall intensities and backfill soil types. The results indicate that cycles of wetting and drying process have adverse effects on the wall behavior, increasing wall deformation as well as earth pressure acting on the wall, and that the first cycle of wetting and drying process has more pronounced effect on the wall performance than the ensuing cycles. It is also shown that the degree to which the wetting and drying cycles affect the wall behavior depends greatly on the backfill soil type, and that the larger the fine contents, the greater is the effect of cycles of wetting and drying on the wall behavior. Practical implications of the findings from this study are discussed in great detail.

Microstructures and Deformation Behavior of AA 2014 Aluminum Alloys in the Semi-Solid State (AA 2014 알루미늄 합금의 고상율에 따른 미세조직 및 반응고 변형 거동)

  • Han, Do-Suck
    • Journal of Korea Foundry Society
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    • v.37 no.5
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    • pp.157-163
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    • 2017
  • In the present study, the microstructural evolution and deformation behavior of AA 2014 aluminum alloys with different microstructures in a semi-solid state were investigated. For a given alloy, applied load and deformation time, the measured strain was higher at a higher temperature, indicative of a lower solid fraction. When a large proportion of the liquid was present as intragranular droplets, the alloy would not as easily deform because the effective liquid fraction between the solid grains had decreased. Greater deformation was achieved with higher grain boundary misorientations due to the enhanced wetting of the grain boundaries with liquid. A semi-empirical constitutive model is proposed for semi-solid deformation under the conditions in the present study. The mechanism of semi-solid deformation incorporates the initial flow of the liquid in the early stages of deformation, followed by a more gradual increase in the strain due to deformation by grain sliding accompanied by self-diffusion in the solid grains.

Jumping of a Droplet on a Superhydrophobic Surface in AC Electrowetting (AC 전기습윤을 이용한 초발수 표면에서의 액적의 점프)

  • Lee, Seung-Jun;Oh, Jung-Min;Kang, Kwan-Hyoung
    • Proceedings of the KSME Conference
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    • 2008.11b
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    • pp.2501-2504
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    • 2008
  • We found that a droplet placed on a superhydrophobic surface jumps upward when we controlled the electrical wetting tension appropriately by applying AC voltage. We investigated how the surface deformation and jumping phenomenon of a droplet are affected by applied frequency under constant voltage. We found that a droplet jumps up continuously at a resonance frequency.

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The Prediction and Control of Plate Mechanical Properties By the Analysis of Temperature History on ROT in Hot Strip Mill (열연 권취중 냉각이력 해석을 통한 재질예측 및 제어기술 개발)

  • Lee, J.H.;Kim, H.J.;Kim, Jae-Bu;Im, Y.R.;Lee, J.K.
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2007.05a
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    • pp.111-113
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    • 2007
  • The Mechanical properties of steel in hot strip mill were associated with the alloy composition, plastic deformation, cooling history and so on. In the case of the same alloy composition and deformation conditions, cooling history on ROT (run out table) is the main factor in affecting mechanical properties of steel, especially, in carbon steel. On ROT, the steel undergoes under various kinds of cooling conditions such as radiation, convection by air, water and wetting zone. The coiling temperature (CT) of the steel is also important factor in affecting mechanical properties. But with the same CT, the mechanical properties of steel can be different because the temperature history of cooling is more important factor than CT itself. In this study, we have studied the relations between temperature history and mechanical properties of steel and then the predicted mechanical properties have compared with the measured values.

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The behavior of a Cut Slope Stabilized by Use of Piles during Heavy Rain (억지말뚝으로 보강된 절개사면의 강우시 거동)

  • Han, Jung-Geun;Hong, Won-Pyo;Sin, Min-Ho
    • Geotechnical Engineering
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    • v.12 no.1
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    • pp.35-46
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    • 1996
  • An instrumentation system is designed to observe the behavior of slope soil and stabilizing piles during heavy rains. Inclinometers, standpipe piezometers and strain gages are installed into a cut slope reinforced by a row .of piles for an apartment. The horizontal deflection and bending stress developed on the piles can be measured, respectively, by the inclinometers and strain gages installed in piles, while the horizontal deformation of the slope soil can be measured by the inclinometer installed in the soil across the open space between piles. The groundwater level doss not grow so sensitively during heavy rain. The behavior of piles and slope is 서footed by the wetting front, since the driving force of slope increases with the weight of slope soil above the wetting front. The stabilizing piles and the slope soil show elastic behavior during heavy rain.

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Characterization of Physical Factor of Unsaturated Ground Deformation induced by Rainfall (강우를 고려한 불포화 지반변형의 영향인자 평가)

  • Kim, Man-Il;Jeon, Gyo-Cheol
    • The Journal of Engineering Geology
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    • v.18 no.2
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    • pp.127-136
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    • 2008
  • Geophysical survey for establishing a wide site for the distribution of water content, wetting front infiltration due to the rainfall, and distribution of groundwater level has been performed by using 8round penetration radar (GPR) method, electrical resistivity method, and so on. On the other hand, a narrow area survey was performed to use a permittivity method such as time domain reflectometry, frequency domain reflectometry, and amplitude domain reflectometry methods for estimating volumetric water content, soil density, and concentration of contaminant in surface and subsurface. The permittivity methods establish more corrective physical parameters than different found survey technologies mentioned above. In this study for establishment of infiltration behaviors for wetting front in the unsaturated soil caused by an artificial rainfall, soil physical parameters for volumetric water content, pore water pressure, and pore air pressure were measured by FDR measurement device and pore water pressure meter which are installed in the unsaturated weathered granite soil with different depths. Consequently, the authors were proposed to a new establishment method for analyzing the variations of volumetric water content and wetting front infiltration from the responses of infiltrating pore water in the unsaturated soil.

Fluoroalkylation of the Surface of Hydrophilic Polyurethane Breathable Membrane (플루오르알킬화에 의한 친수성 폴리우레탄 필름 표면의 개질)

  • Hwang, Ji-Hyun;Oh, Kyoung-Suk;Yoon, Nam-Sik
    • Textile Coloration and Finishing
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    • v.25 no.1
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    • pp.30-36
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    • 2013
  • Swelling and subsequent deformation of membranes by water wetting are regarded as a prime drawback of hydrophilic polyurethane breathable film. Fluoroalkylated surface was prepared by reacting the film with hexamethylene diisocyanate(HDI) and 2-perfluorohexyl ethanol. IR spectra and XPS results showed that the fluoroalkyl group was successfully introduced to the film surface with hexamethylene linkage. Water contact angle was increased from $68.7^{\circ}$ up to $144.2^{\circ}$ with the degree of fluoroalkylation. Decrease in water-vapor permeability was minimized even for the film of highest fluoroalkylation.