• Title/Summary/Keyword: Chloride ion migration

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Characteristic of Chloride ion Diffusion in Mortar According to the Substitution Ratios of the Additive (혼합재 치환율에 따른 모르타르의 염소이온 확산 특성)

  • 양승규;정연식;이웅종;유재상;이종열
    • Proceedings of the Korea Concrete Institute Conference
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    • 2002.10a
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    • pp.17-22
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    • 2002
  • Chloride ions have a tendency to penetrate into concrete and proceed the corrosion by depassivating rebar surface. Thus the deteriorated concrete is subject to experience severe degrading of durability under marine environment. Physical properties of mortar, such as, compressive strength and penetration depth of chloride ion were investigated. And to investigate the effect of containing SG, FA in mortar, the diffusion coefficient of chloride was measured through an electro - migration test. The diffusion coefficient of chloride was decreased with the increase of replacement ratio of SG compared with plain specimen.

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Characteristic of Chloride Ion Diffusion in Concrete Containing GGBF (고로슬래그미분말 혼합 콘크리트의 염소이온 확산특성)

  • 문한영;김홍삼;김진철;최두선
    • Proceedings of the Korea Concrete Institute Conference
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    • 2001.11a
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    • pp.793-796
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    • 2001
  • Physical properties of concrete, Such as, compressive strength, permeable pore and penetration depth of chloride ion were investigated. And to investigate the effect of containing GGBF in concrete, the diffusion coefficient of chloride was measured through an electro- migration test. The diffusion coefficient of chloride was decreased with increase of replacement ratios of GGBF when compared to OPC. Relation coefficients between physical properties of concrete and diffusion coefficient of chloride were more than 0.9.

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Chloride Diffusion in Mortars - Effect of the Use of Limestone Sand Part I: Migration Test

  • Akrout, Khaoula;Ltifi, Mounir;Ouezdou, Mongi Ben
    • International Journal of Concrete Structures and Materials
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    • v.4 no.2
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    • pp.105-108
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    • 2010
  • In order to determine the effect of the use of limestone sand on chloride ion ingress in mortar, specimens were cast with two different sands: siliceous sand (used as reference) and limestone crushed sand (used for this study). To compare and assess the resistance of this mortar to chloride penetration, two different diffusions tests were employed: slow migration and rapid migration (AASHTO test). In this study, calculation of the effective diffusion coefficient is proposed using a model based on Nernst. Planck equation. The diffusion coefficients from each sample were compared. The results for all tests show that the diffusion coefficients for siliceous sand mortar are larger than those obtained with limestone sand. It appears also that the diffusion coefficient varies as a function of the W/C ratio.

Assessment of Recovery of Chloride Penetration Resistance of Self-healing Cement Mortars Containing Layered Double Hydroxide (이중층수산화물을 혼입한 자기치유 시멘트 모르타르의 염화물 침투 저항성 회복 평가)

  • Kyung Suk, Yoo;Seung Yup, Jang
    • Journal of the Korean Recycled Construction Resources Institute
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    • v.10 no.4
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    • pp.600-608
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    • 2022
  • This study investigates the effect of layered double hydroxide (LDH) on the healing performance of self-healing concrete by assessing the chloride penetration resistance of self-healing cement mortars using electrical chloride ion migration-diffusion test. Test results show that both mortars containing healing materials only and mortars containing healing materials and Ca-Al LDH together mostly had higher migration-diffusion coefficients right after cracking, but the migration-diffusion coefficients decreased more than that of OPC with increasing healing ages, and thus, they yielded higher healing capacities than OPC. Also, mortars containing Ca-Al LDH together with healing materials showed higher reduction of their migration-diffusion coefficients, and thus, higher healing capacities than mortars containing healing materials only. This suggests that as the self-healing product increases on the crack surface, the binding of chloride ions by LDH inside the crack increases.

Chloride Ion Penetration Resistance of Slag-replaced Concrete and Cementless Slag Concrete by Marine Environmental Exposure (해양환경 폭로에 의한 슬래그 치환 콘크리트 및 슬래그 콘크리트의 염화물 이온 침투 저항성)

  • Lee, Bo-Kyeong;Kim, Gyu-Yong;Kim, Gyeong-Tae;Shin, Kyoung-Su;Nam, Jeong-Soo
    • Journal of the Korea Concrete Institute
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    • v.29 no.3
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    • pp.299-306
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    • 2017
  • In this research, it was examined chloride ion penetration resistance of slag-replaced concrete and cementless slag concrete considering marine environmental exposure conditions of splash zone, tidal zone and immersion zone. In the design strength of grade 24 MPa, the specimens were tested to determine their compressive strength, scanning electron microscopy images and chloride migration coefficient. Further, chloride ion penetration depth and carbonation depth of specimens exposed to marine environment were measured. Experimental results confirm that chloride migration coefficient of specimens tended to decrease with increasing the replacement ratio of ground granulated blast-furnace slag in accelerated laboratory test. In addition, the specimens exposed to the tidal zone were found to be the greatest chloride ion penetration depth compared to splash zone and immersion zone. On the other hand, the chloride ion penetration depth of the specimens exposed to splash zone tended to increase with increasing the replacement ratio of ground granulated blast-furnace slag in contrast with the results for the tidal zone and immersion zone.

Material Characteristics of High-Strength Concrete Incorporating High Replacement Level of Blast-Furnace Slag (고로슬래그를 다량 함유한 고강도 콘크리트의 재료적 특성)

  • Lee, Hoi-Keun;Jung, Jae-Hong;Kim, Han-Joon;Lee, Seung-Hoon
    • Proceedings of the Korea Concrete Institute Conference
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    • 2010.05a
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    • pp.291-292
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    • 2010
  • In this study, high-strength concrete mixtures were made with blast-furnace slag of 50% and 70% replacement level to evaluate material properties including compressive strength development, adiabatic temperature rise, autogenous shrinkage and chloride-ion migration coefficient. Test results showed that the use of high percentage blast-furnace slag in high-strength concrete can reduce heat of hydration and chloride-ion migration coefficient, result in control thermal cracking and improve durability performance especially under high corrosive environment.

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Comparision of Test Methods for Estimating Chloride Ion Diffusion Coefficient in Concrete (콘크리트중의 염소이온 확산계수 추정 실험법의 비교)

  • 문한영;김홍삼;문재흠;한아름
    • Proceedings of the Korea Concrete Institute Conference
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    • 1999.10a
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    • pp.787-790
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    • 1999
  • To estimate durability of reinforced concrete structures located in or nearby seawater, many different kinds of accelerated tests for evaluation of chloride ion permeation in concrete were proposed. At present the only standardized test is the ASTM C 1202(RCP test). This test method is used to estimate the concrete's resistivity of the chloride penetration in concrete by using the total charges passed and sometimes used to calculate the chloride diffusion coefficients. However, this test may lead to an erroneous chloride diffusion coefficient. So this test method was compared with the modified Dhir's test and the traditional concentration diffusion test. Experimental results showed that the diffusion coefficients determined the RCP test and the PD Index gave wrongous values, but the diffusion coefficient acquired by considering a migration term was nearly the same to the CD Test.

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Effect of the Kinds and Replacement Ratios of Mineral Admixtures on the Development of Concrete Resistance against the Penetration of Chloride Ions (혼화재 종류 및 치환율이 콘크리트의 내염성능 향상에 미치는 영향에 관한 연구)

  • Kim Young-Jin;Lee Sang-Soo;Kim Dong-Seuk;Yoo Jae-Kang
    • Journal of the Korea Concrete Institute
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    • v.16 no.3 s.81
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    • pp.319-326
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    • 2004
  • This paper investigates the effect of the concrete containing mineral admixtures(pozzolanic materials such as fly-ash, ground granulated blast-furnace slag, silica fume and meta kaolin) on the resistance properties to chloride ion invasion. The purposed testing procedure was applied to the concrete replaced mineral admixtures for 3${\~}$4 replacement ratios under water-binder ratios ranged from 0.40 to 0.55. For the electro-migration test, Tang and Nilsson's method was used to estimate the diffusion coefficient of chloride ion. As a results, the water-binder ratios, kinds of mineral admixtures and replacement ratios, water curing periods had a great effect on the diffusion coefficient of chloride ion, and the optimal replacement ratios had a limitation for each mineral admixtures. Also, the use of mineral admixtures by mass(replacement of OPC) enhance the resistance ability against chloride penetration compared with the plain concrete. The compressive strength was shown related to the diffusion coefficient of chloride ion, the compressive strength increases with the diffusion coefficient of chloride ion decreasing. Below the 50 MPa, the variation of diffusion coefficient of concrete replaced mineral admixtures was bigger than that of plain concrete.

An Experimental Study on the Chloride Attack Resistibility of Alkali-Activated Ternary Blended Cement Concrete (알칼리 활성화 3성분계 혼합시멘트의 염해 저항성에 관한 실험적 연구)

  • Yang, Wan-Hee;Hwang, Ji-Soon;Jeon, Chan-Soo;Lee, Sea-Hyun
    • Journal of the Korea Institute of Building Construction
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    • v.16 no.4
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    • pp.321-329
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    • 2016
  • The use of ternary blended cement consisting of Portland cement, granulated blast-furnace slag (GGBFS) and fly ash has been on the rise to improve marine concrete structure's resistance to chloride attack. Therefore, this study attempted to investigate changes in chloride attack resistibility of concrete through NT Build 492-based chloride migration experiments and test of concrete's ability to resist chloride ion penetration under ASTM C 1202(KS F 2271) when 1.5-2.0% of alkali-sulfate activator (modified alkali sulfate type) was added to the ternary blended cement mixtures (40% ordinary Portland cement + 40% GGBFS + 20% fly ash). Then, the results found the followings: Even though the slump for the plain concrete slightly declined depending on the use of the alkali-sulfate activator, compressive strength from day 2 to day 7 improved by 17-42%. In addition, the coefficient from non-steady-state migration experiments for the plain concrete measured at day 28 decreased by 36-56% depending on the use of alkali-sulfate. Furthermore, total charge passed according to the test for electrical indication of concrete's ability to resist chloride ion penetration decreased by 33-62% at day 7 and by 31-48% at day 28. As confirmed in previous studies, reactivity in the GGBFS and fly ash improved because of alkali activation. As a result, concrete strength increased due to reduced total porosity.

Performance of self-compacting concrete with manufactured crushed sand

  • Benyamina, Smain;Menadi, Belkacem;Bernard, Siham Kamali;Kenai, Said
    • Advances in concrete construction
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    • v.7 no.2
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    • pp.87-96
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    • 2019
  • Self-compacting concretes (SCC) are highly fluid concrete which can flow without any vibration. Their composition requires a large quantity of fines to limit the risk of bleeding and segregation. The use of crushed sand rich in limestone fines could be an adequate solution for both economic and environmental reasons. This paper investigates the influence of quarry limestone fines from manufactured crushed sand on rheological, mechanical and durability properties of SCC. For this purpose, five mixtures of SCC with different limestone fines content as substitution of crushed sand (0, 5, 10, 15 and 20%) were prepared at constant water-to-cement ratio of 0.40 and $490kg/m^3$ of cement content. Fresh SCC mixtures were tested by slump flow test, V-funnel flow time test, L-box height ratio, segregation resistance and rheological test using a rheometer. Compressive and flexural strengths of SCC mixtures were evaluated at 28 days. Regarding durability properties, total porosity, capillary water absorption and chloride-ion migration were studied at 180 days. For the two test modes in fresh state, the results indicated compatibility between slump flow/yield stress (${\tau}_0$) and V-funnel flow time/plastic viscosity (${\mu}$). Increasing the substitution level of limestone fines in SCC mixtures, contributes to the decrease of the slump flow and the yield stress. All SCC mixtures investigated achieved adequate filling, adequate passing ability and exhibit no segregation. Moreover, the inclusion of limestone fines as crushed sand substitution reduces the capillary water absorption, chloride-ion migration and consequently enhances the durability performance.