• Title/Summary/Keyword: low-heat concrete

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Temperature Crack Control about Sidewall of LNG in Inchon (인천 LNG지하탱크 Sidewall의 온도균열제어)

  • Koo, Bon-Chang;Kim, Dong-Seuk;Ha, Jae-Dam;Kim, Ki-Soo;Choi, Long;Choi, Woong
    • Proceedings of the Korea Concrete Institute Conference
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    • 1999.10a
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    • pp.329-332
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    • 1999
  • The crack of concrete induced by the heat of hydration is a serious problem, particularly in concrete structures such as underground box structure, mat-slab of nuclear reactor buildings, dams or large footings, foundations of high rise buildings, etc.. As a result of the temperature rise and restriction condition of foundation, the thermal stress which may induce the cracks can occur. Therefore the various techniques of the thermal stress control in massive concrete have been widely used. One of them is prediction of the thermal stress, besides low-heat cement which mitigates the temperature rise, pre-cooling which lowers the initial temperature of fresh concrete with ice flake, pipe cooling which cools the temperature of concrete with flowing water, design change which considers steel bar reinforcement, operation control and so on. The objective of this paper is largely two folded. Firstly we introduce the cracks control technique by employing low-heat cement mix and thermal stress analysis. Secondly it show the application condition of the cracks control technique like sidewall of LNG in Inchonl.

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Temperature Crack Contol in Subway Box Structures (지하철 박스 구조물에서의 온도균열제어)

  • Koo, Bon-Chang;Kim, Dong-Seuk;Ha, Jae-Dam;Kim, Ki-Soo;Choi, Long;Oh, Byung-Hwan
    • Proceedings of the Korea Concrete Institute Conference
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    • 1999.04a
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    • pp.293-298
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    • 1999
  • The crack of concrete induced by the heat of hydration is a serious problem, particularly in concrete structures such as underground box structure, mat-slab of nuclear reactor buildings, dams or large footings, foundations of high rise buildings, etc.. As a result of the temperature rise and restriction condition of foundation, the thermal stress which may induce the cracks can occur. Therefore the various techniques of the thermal stress control in massive concrete have been widely used. One of them is prediction of the thermal stress, besides low-heat cement which mitigates the temperature rise, pre-cooling which lowers the initial temperature of fresh concrete with ice flake, pipe cooling which cools the temperature of concrete with flowing water, design change which considers steel bar reinforcement, operation control and so on. The objective of this paper is largely two folded. Firstly we introduce the cracks control technique by employing low-heat cement mix and thermal stress analysis. Secondly it show the application condition of the cracks control technique like the subway structure in Seoul.

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Temperature Control of Mass-Concrete Structure with Pipe Cooling or Sheet Curing. (시트양생 및 파이프 쿨링에 의한 매스콘크리트 구조물의 온도제어)

  • 차홍윤;김은경;김래현;신치범
    • Proceedings of the Korea Concrete Institute Conference
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    • 1995.04a
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    • pp.263-267
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    • 1995
  • The usual methods for the temperature control of mass-concrete structures include the use of low-heat cement, pre-cooling, post-cooling, or sheet curing. In order to control the heat of hydration during the construction of mass-concrete structures, the combination of the above methods is commonly employed. For the construction of mass-concrete structures such as massive pier or anchor, it is necessary to control the curing temperature with pipe cooling. In this study, the method of analysis on the effect of pipe of was proposed to prevent the thermal cracking due to heat of hydration In addition the effect of covering the concrete surface with blanket insulation was investigated. The results of the present study may be useful for the prediction of curing temperature of mass-concrete structures and the reasonable construction management.

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A Study on the Cold Weather Concrete using High Early Strength Concrete (조강시멘트를 이용한 한중콘크리트의 특성평가 연구)

  • 임채용;엄태선;유재상;이종열;이순기;이동호
    • Proceedings of the Korea Concrete Institute Conference
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    • 2003.11a
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    • pp.261-264
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    • 2003
  • Cold weather can lead to many problems in mixing, placing, setting time, and curing of concrete that can have harmful effects on its properties and service life. Korean Concrete Institute (KCI) defines cold weather as a period when the average daily air temperature is less $4^{\circ}C$ and recommends to cast concrete with special care such as shielding, heating and so on. The use of high early strength cements may improve the rate of hardening characteristics of concrete in cold weather by making it possible to achieve faster setting time and evolving more hydration heat than ordinary Portland cement. Higher early strength can be achieved using Type III cement especially during the first 7 days. The strength increase property of Type III cement at low temperature was studied. As a conclusion the heat or heat insulation curing period can be reduced to 50~75%. So, it can be used for cold weather concreting to reduce construction cost and extend the construction season.

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Study on the Properties of the Low Heat Concrete Applied to the Mass Concrete by the Blended Cements (혼합시멘트를 사용한 저발열콘크리트의 매스콘크리트 적용을 위한 기초특성 연구)

  • Lee, Jin-Woo;Lee, Young-Hwan;Kim, Kyung-Min;Bae, Yeoun-Ki;Lee, Jae-Sam
    • Proceedings of the Korea Concrete Institute Conference
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    • 2006.05b
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    • pp.641-644
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    • 2006
  • Considering properties of the low-heat concrete mixed with the blended cements, the influences compared blended cements with ordinary portland cement made experiments on. (1) Blended cements were superior to OPC in the fresh concrete flow that the use of blended cements reduced chemical admixture. (2) The more the use of additive increase, the more bleeding happens. So it is considered to heights, order, and rate of placement, curing methods and so on. (3) The use of blended cements increase long term strength after 28 days, but decrease early strength and durability. So it is considered to the curing methods and early frost damage, and endurance limit.

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Hydration Properties of Low Carbon type Low Heat Blended Cement (무기질 자극제를 사용한 탄소배출 저감형 저발열형 혼합시멘트의 수화특성에 관한 연구)

  • Choi, Sung-Woo;Ryu, Deuk-Hyun;Kim, Hun-Sang;Kim, Gyu-Yong
    • Journal of the Korea Institute of Building Construction
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    • v.13 no.3
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    • pp.218-226
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    • 2013
  • Of construction materials, cement and steel are the representative material that carbon dioxide. to reduce carbon emissions in the use of these materials The purpose of this study is low heat type blended cement, which is manufactured using a amount of cement than ordinary low heat blended cement. Low heat blended cement, mixing ratio of 10%, was investigated hydration properties and adiabatic temperature of concrete. The study in order to activate the reaction mineral admixture, a separate source of CaO and $SO_3$ areneeded. gypsum and lime, it expected amount of cement, low-carbon low-heat blended cement could reduce the hydration heat concrete than currentlyused low heat blended cement.

A Study on the Structural Behavior in Mass Concrete Box Rahmen due to Hydration Heat (수화열에 의한 매스콘크리트 박스 라멘 구조물의 구조거동 연구)

  • 조병완;김영진;허민희
    • Proceedings of the Korea Concrete Institute Conference
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    • 1999.10a
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    • pp.349-352
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    • 1999
  • Concrete cracks due to hydration heat are a serious problem, particularly in mass concrete structures such as box rahmen, dam or footing of pier, etc.. As a result of the temperature rise and restriction condition of foundation, the thermal stress which may induce the cracks can occur. In this, study, ABAQUS program package was used to calculate the temperature distributions generated by hydration heat and the thermal stress in box rahmen structure which have thickness of 1.7~2.2m, and applied for various equations of adiabatic temperature rise such as korean code, japanese code, convection coefficient and low heat cement code.

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A Study on the Basic Properties of Concrete and Low Heat-Blended Cement with Bottom Ash (바텀애시를 이용한 저발열 혼합시멘트 및 콘크리트의 기초물성에 관한 연구)

  • Kim, Won-Ki;Kim, Hoon-Sang;Kim, Hong-Joo;Lee, Won-Jun;Shin, Jin-Ho
    • Proceedings of the Korea Concrete Institute Conference
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    • 2008.04a
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    • pp.685-688
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    • 2008
  • This study has examined the effect of bottom ash(BA) on the properties of low heat-blended cement(LHC) and concrete. A number of binders were prepared by the replacement of LHC with BA in range of 5$^{\sim}$20wt%. The results showed that the final setting time of cement paste were delayed when the BA replaced part of the cement. However, The heat of hydration increased narrowly with adding BA in a early hydration period. The results also showed the inclusion of BA at replacement levels of 5$^{\sim}$10wt% resulted in an increase in compressive strength of the specimens compared with that of the control concrete and improved a resistance of concrete against the sulfate and chlorine ion.

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