• Title/Summary/Keyword: Water diffusion coefficient

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Evaluation of Diffusion Property of Latex Modified Concrete (LMC(Latex Modified Concrete)의 염소이온 확산 특성)

  • Park, Sung-Ki;Won, Jong-Pil;Park, Chan-Gi
    • Journal of The Korean Society of Agricultural Engineers
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    • v.50 no.4
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    • pp.27-37
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    • 2008
  • It is most serious problem which is various occurs from the agricultural concrete structure and off shore concrete structure the problem which it comes to think is deterioration of the concrete which is caused with the corrosion of the reinforcing steel which is caused by with permeation of the water and the sea water. Specially the off shore concrete structure has been deteriorated by the steel reinforcement corrosion. The latex modified concrete(LMC) was adds latex in the plain concrete as the latex has increase the durability of concrete. This study were accomplished to the estimate the diffusion coefficient of LMC, and the time dependent constants of diffusion. The average chloride diffusion coefficient was estimated. Also, the average chloride diffusion coefficient was compared with diffusion coefficient test results of 28 curing days. The test results indicated that the average chloride diffusion coefficient could closely estimate the test results of the diffusion coefficient test results of 28 curing days.

A Study on Chloride Diffusion in Concrete Containing Lightweight Aggregate Using Crushed Stone-powder (폐석분을 활용한 경량골재 콘크리트의 염화물 확산에 관한 연구)

  • Lee, Dae-Hyuk;Jee, NamYong;Kim, Jae-Hun;Jeong, Yong;Shin, Jae-Kyung
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2009.11a
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    • pp.127-131
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    • 2009
  • The purpose of this study is to provide fundamental data on chloride diffusion from lightweight aggregate concrete by utilizing crushed stone-powder. Accordingly, the study performed experiments using concrete aggregates of Crushed Aggregate (CG), Single-sized Lightweight Aggregate (SLG), Continuous Graded Lightweight Aggregate (CLG), and using water-binder ratio of 0.4, 0.5, 0.6, and using binder of FA and BFS. The chloride diffusion coefficient is calculated after experiment based on NT BUILD 492. Diffusion coefficient of SLG and CLG were little bit higher than CG Concrete, but the difference is meaningless. Also, chloride diffusion coefficient indicates that it is highly affected by water-binder ratio, and it decreases with the decrease in water-binder ratio. The admixture substitution indicates decrease only with water-binder ratio of 0.4 for FA15% case, but admixture substitution indicates decrease with all levels of ratio for FA10 + BFS20% which means more appropriate. According to the analysis result of chloride diffusion from lightweight aggregate concrete, crushed stone-powder utilized lightweight aggregate concrete indicates higher chloride diffusion coefficient than CG concrete, which is not a significant difference, and can improve resistance through water-binder ratio and admixture substitution.

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Diffusivity of Carbon Dioxide in Concrete (콘크리트 내 이산화탄소 확산계수 예측에 관한 연구)

  • 오병환;정상화;이명규
    • Proceedings of the Korea Concrete Institute Conference
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    • 2003.05a
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    • pp.669-674
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    • 2003
  • The purpose of this study is to identify the diffusion coefficients of carbon dioxide for various concrete mixtures. The test results indicate that the diffusion coefficient increases with the increase of water-cement ratio. The diffusion coefficient decreases with the increase of relative humidity at the same water-cement ratio. The diffusion of carbon dioxide reached the steady-state within about five hours after exposure. It was found that the diffusion coefficient of cement paste is larger then that of concrete or mortar. The quantitative values of diffusivity of carbon dioxide in this study will allow more realistic assessment of carbonation depth in concrete structures.

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Modeling of ion diffusion coefficient in saturated concrete

  • Zuo, Xiao-Bao;Sun, Wei;Yu, Cheng;Wan, Xu-Rong
    • Computers and Concrete
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    • v.7 no.5
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    • pp.421-435
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    • 2010
  • This paper utilizes the modified Davis model and the mode coupling theory, as parts of the electrolyte solution theory, to investigate the diffusivity of the ion in concrete. Firstly, a computational model of the ion diffusion coefficient, which is associated with ion species, pore solution concentration, concrete mix parameters including water-cement ratio and cement volume fraction, and microstructure parameters such as the porosity and tortuosity, is proposed in the saturated concrete. Secondly, the experiments, on which the chloride diffusion coefficient is measured by the rapid chloride penetration test, have been carried out to investigate the validity of the proposed model. The results indicate that the chloride diffusion coefficient obtained by the proposed model is in agreement with the experimental result. Finally, numerical simulation has been completed to investigate the effects of the porosity, tortuosity, water-cement ratio, cement volume fraction and ion concentration in the pore solution on the ion diffusion coefficients. The results show that the ion diffusion coefficient in concrete increases with the porosity, water-cement ratio and cement volume fraction, while we see a decrease with the increasing of tortuosity. Meanwhile, the ion concentration produces more obvious effects on the diffusivity itself, but has almost no effects on the other ions.

A Foundamental Study on the Solvent Dyeing Part 2. Dyeing Properties of PET Treated with Water, TCE and water/TCE Emulsion (용제염색에 관한 기초적 연구 제2보 물, TCE 및 물/TCE 처리를 한 PET의 염색성)

  • Chung Doo Jin
    • Journal of the Korean Society of Clothing and Textiles
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    • v.3 no.2
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    • pp.37-41
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    • 1979
  • In order to obtain tasic information for solvent dyeing, polyethylene terephthalate (PET) films was pretreated with water, tetrachloroethylene (TCE) and water/TCE emulsion for three hours at $140^{\circ}C$ for stabilizing the substrate. By film roll cyliderical method, Disperse Red 60, Disperse Yellow 42, and Disperse Blue 27 were diffused in the films and examined dyeing properties. The results are summarized as follows; 1) Diffusion coefficient increases in the order, waterTCE>water/TCE 2) A linear relationship between diffusion coefficient and shrinkage was Observed 3) The temperature dependence of the diffusion coefficient can't be expressed by WLF equation.

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Transport of Water through Polymer Membrane in Proton Exchange Membrane Fuel Cells (고분자전해질 연료전지에서 고분자막을 통한 물의 이동)

  • Lee, Daewoong;Hwang, Byungchan;Lim, Daehyun;Chung, Hoi-Bum;You, Seung-Eul;Ku, Young-Mo;Park, Kwonpil
    • Korean Chemical Engineering Research
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    • v.57 no.3
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    • pp.338-343
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    • 2019
  • The water transport and water content of the electrolyte membrane greatly affect the performance of the membrane in PEMFC(Proton Exchange Membrane Fuel Cell). In this study, the parameters (electroosmotic coefficient, water diffusion coefficient) of polymer membranes for water transport were measured by a simple method, and water flux and ion conductivity were simulated by using a model equation. One dimensional steady state model equation was constructed by using only the electro-osmosis and diffusion as the driving force of water transport. The governing equations were simulated with MATLAB. The electro-osmotic coefficient of $144{\mu}m$ thick polymer membranes was measured in hydrogen pumping cell, the value was 1.11. The water diffusion coefficient was expressed as a function of relative humidity and the activation energy for water diffusion was $2,889kJ/mol{\cdot}K$. The water flux and ion conductivity results simulated by applying these coefficients showed good agreement with the experimental data.

A Study on te Water Diffusion of Polymer-Modified Mortars in Drying Process (건조과정에 있어서 폴리머 시멘트 모르터의 수분확산에 관한 연구)

  • 조영국;소양섭
    • Magazine of the Korea Concrete Institute
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    • v.8 no.5
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    • pp.135-143
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    • 1996
  • Diffusion of water in hardened cement concrete and mortar influences on the dry shrinkage. creep. modulus of' elasticity, etc. In general, water loss through drying process in polymer-modified concrete and mortar is small compared with that of unmodified concrete and mortar due to the films formed by polymer as cement modifieder. The purpose of this study is to investigate the diffusion process of water in the polymer-modified mortars. The polymer-modified mortars using three polymer dispersions and epoxy resin are prepared with various polymer-cement ratios, and water diffusion coefficient of polymer-modified mortars according to inside water content is calculated. From the test results, the water diffusion coefficient of polymer modified mortars i s smaller than that of unmodified mortars and decreases with increasing polymer cement ratio.

Experimental Study on CO2 Diffusivity in Cementitious Materials

  • Jung, Sang-Hwa;Lee, Myung-Kue;Kim, Jee-Sang
    • Corrosion Science and Technology
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    • v.4 no.2
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    • pp.69-74
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    • 2005
  • The carbonation of concrete is one of the major factors that cause durability problems in concrete structures. The rate of carbonation depends largely upon the diffusivity of carbon dioxide in concrete. The purpose of this study is to identify the diffusion coefficients of carbon dioxide for various concrete mixtures. To this end, several series of tests have been planned and conducted. The test results indicate that the diffusion coefficient increases with the increase of water-cement ratio. The diffusion coefficient decreases with the increase of relative humidity at the same water-cement ratio. The diffusion of carbon dioxide reached the steady state within about five hours after exposure. The content of aggregates also influences the diffusivity of carbon dioxide in concrete. It was found that the diffusion coefficient of cement paste is larger then that of concrete or mortar. The quantitative values of diffusivity of carbon dioxide in this study will allow more realistic assessment of carbonation depth in concrete structures.

Evaluation of Diffusibility of Boron in Wood under Water Leaching Conditions

  • Ra, Jong-Bum;Kim, Gyu-Hyeok
    • Journal of the Korean Wood Science and Technology
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    • v.34 no.5
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    • pp.98-103
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    • 2006
  • Radial and tangential diffusion coefficients of boron in wood under water leaching conditions were determined from the change of concentration profiles of boron. Egner's solution was used to obtain variable diffusion coefficients of boron because it has been known to be the only method to determine variable diffusion coefficients with no cumbersome assumption. The values of diffusion coefficients were between $0.18{\times}10^{-6}m^2/sec$ and $25.6{\times}10^{-6}cm^2/sec$. They increased with the increase of sample thicknesses, and decreased with the increase of leaching times. There was a region where Egner's method was not valid. However, Egner's solution illustrates a convenient way to evaluate diffusion characteristics of boron from wood under water leaching conditions. The diffusion coefficients at wood surface may be regarded as leaching coefficients.

A Study on the Dry Shrinkage and Moisture Diffusion Coefficient of Polymer-Modified Mortars by the Moisture Diffusion (수분확산에 의한 폴리머 시멘트 모르터의 건조수축과 확산계수에 관한 연구)

  • 조영국;소양섭
    • Magazine of the Korea Concrete Institute
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    • v.8 no.5
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    • pp.145-154
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    • 1996
  • Polymer-modified mortars have an excellent water proofness and water retentivity. Therefore, the study on the moisture diffusion behavior- is very important. The purpose of' this study is to investigate the effects of relative humidity and moisture content in mortars on the moisture diffusion, and the relationship between the shrinkage and moisture diffusion coefficient of polymer-modified mortars cured at $20{\circ}C$ 50% R.H and 80% R.H. The pore size distribution of the polymer-modified mortars was also measured. From the test results, the relative humidity and moisture content in mortars influenced on the moisture diffusion of polymer-modified mortars. The shrinkage and moisture diffusion coefficient of polymer-modified mortars cured at $20{\circ}C$ 50% R.H. was bigger than that cured at $20{\circ}C$ 80% R.H.. and decreased with increasing polymer-cement ratio regardless of polymer type.