• Title/Summary/Keyword: $CO_2$ curing

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A Basic Study on the Development of Optimum Carbonation Curing Techniques for Concrete Using Supercritical CO2 (초임계 CO2를 활용한 콘크리트의 최적 탄산화양생기법 개발에 관한 기초적 연구)

  • Hong, Sung-Jun;Ryu, Dong-Woo
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2022.04a
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    • pp.91-92
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    • 2022
  • This study is a basic study on carbonation curing technology of concrete using supercritical CO2, and carbonation curing was carried out by exposing concrete to supercritical CO2 for a certain period of time. In the case of conventional carbonation curing, long-term curing was performed for several weeks by controlling the concentration of CO2, but by using supercritical CO2, more rapid carbonation curing was carried out using constant temperature and pressure conditions to improve durability through surface modification of concrete. This experiment was conducted with the goal of deriving the optimal carbonation curing conditions by measuring the carbonation depth by exposing concrete for a certain period of time to conditions above the supercritical level. As a result, it was confirmed that the carbonation depth increased as the curing time increased, and the curing time could be shortened compared to the carbonation curing according to the existing CO2 concentration.

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A study on the compressive strength development of mortar containing MgO by CO2 curing (CO2 양생에 의한 MgO 혼입 모르타르의 압축강도 발현에 관한 연구)

  • Sung, Myung-jin;Lee, Han-Seung
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2014.11a
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    • pp.23-24
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    • 2014
  • Currently, cement and concrete industries have been contributing to the CO2 emission worldwide. Because of that, the efforts to minimize CO2 have been the subject of many researches. This study focus on the use of GGBFS and fly ash in mortar specimens as a patial replacement of cement. Because of the limitation of the initial compressive strength, the newly efforts to enhance the strength through CO2 Curing was adapted. To accelerate the reaction with CO2, MgO was replaced by percentage from 0 to 100%. Results showed that compressive strength values at 7 days with CO2 curing done on specimens was higher than that with no CO2 curing. Similar trend was observed at 14 days too. It is therefore appeared that CO2 curing has an obvious effect on compressive strength development of mortar specimens.

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Properties of Cement Paste Containing High Volume γ-C2S and MgO Subjected to CO2 Curing (γ-C2S 및 MgO를 다량 혼입한 시멘트 페이스트의 CO2 양생유무에 따른 특성변화)

  • Sung, Myung-Jin;Cho, Hyeong-Kyu;Lee, Han-Seung
    • Journal of the Korea Institute of Building Construction
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    • v.15 no.3
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    • pp.281-289
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    • 2015
  • Carbonation of concrete causes reduction of pH and subsequently causes steel corrosion for reinforced concrete structure. However, for plain concrete structure or PC product, it can lead to a decrease in porosity, high density, improvement of concrete, shrinkage-compensation. Recently, based on this theory, research of $CO_2$ curing effect has been performed, but it was mainly focused on its effects on compressive strength using only ordinary portland cement. Researches on $CO_2$ curing effect for concrete containing $CO_2$ reactive materials such as ${\gamma}-C_2S$, MgO haven't been investigated. Therefore, this study has performed experiments under water-binder ratio 40%, and the replacement ratios of ${\gamma}-C_2S$ and MgO were 90%. Micro-chemical analysis, measurement of compressive strength according to admixtures and $CO_2$ curing were investigated. Results from this study revealed that higher strength was measured in case of $CO_2$ curing compared with none $CO_2$ curing for plain specimen indicating difference between 1.08 and 1.26 times, in case of ${\gamma}-C_2S$ 90, MgO 90 specimen, incorporating high volume replaced as much as 90%, it was proven that when applying $CO_2$ curing, higher strength which has difference between 14.56 and 45.7 times, and between 6.5 and 10.37 times was measured for each specimen compared to none $CO_2$ curing. Through micro-chemical analysis, massive amount of $CaCO_3$, $MgCO_3$ and decrease of porosity were appeared.

A Study on the Curing Method to Improve Bonding Strength of Aluminum/CFRP Composites (알루미늄/CFRP 복합재의 접착강도 향상을 위한 경화방법에 관한 연구)

  • 이경엽;양준호;최낙삼
    • Transactions of the Korean Society of Automotive Engineers
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    • v.10 no.3
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    • pp.130-135
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    • 2002
  • This study investigates the effect of curing method on the bonding strength of aluminum/CFRP composites. The surface of aluminum panel was treated by DC plasma. Lap shear tests and T-peel tests were performed based on the procedure of ASTM 906-94a and ASTMD1876-95, respectively. Test samples were fabricated by using the co-curing method and the secondary curing method. The results showed that the shear strength of test samples made by the co-curing method was 2.5 times greater than that of test samples made by the secondary curing method. The T-peel strength of the co-curing method case was almost 2 times greater than that of the secondary curing method case.

A Fundamental Study on Supercritical CO2 Curing of Resource-Recycling Concrete Containing Concrete Sludge Waste as Main Materials (레미콘 슬러지 고형분을 주재료로 한 자원순환형 콘크리트의 초임계 CO2 양생에 관한 기초적 연구)

  • Sim, Sang-Rak;Lee, Young-Do;Ryu, Dong-Woo
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2022.11a
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    • pp.27-28
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    • 2022
  • In this study, the mechanical properties of resource-recycling concrete containing concrete sludge waste as main materials was compared depending on whether supercritical CO2 curing was applied for the realization of CCU technology. After supercritical CO2 curing, the compressive strength of the steam-cured specimen was lowered, but it was confirmed that the compressive strength of the underwater-cured specimen was improved.

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The effect of combined carbonation and steam curing on the microstructural evolution and mechanical properties of Portland cement concrete

  • Kim, Seonhyeok;Amr, Issam T.;Fadhel, Bandar A.;Bamagain, Rami A.;Hunaidy, Ali S.;Park, Solmoi;Seo, Joonho;Lee, H.K.
    • Advances in concrete construction
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    • v.11 no.5
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    • pp.367-374
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    • 2021
  • The present study investigated the effect of the combined carbonation and steam curing on the physicochemical properties and CO2 uptake of the Portland cement concrete. Four different curing regimes were adopted during the initial 10 h of curing to evaluate the potential of carbonation curing as an alternative to conventional steam curing in the precast concrete industry from environmental and practical viewpoints. Four combinations of carbonation and steam curing conditions were applied as curing regimes to the samples at an early age. The test results indicated that the samples treated with the combined carbonation and steam curing exhibited higher early strength development compared to the other samples, signifying that carbonation curing can reduce the production time of precast concrete. Furthermore, the CO2 uptake capacity of the samples was calculated and found to be as high as 18% with respect to the mass of the paste samples. Hence, the simultaneous utilization of steam and CO2 for the fabrication of precast concrete members has the potential to make precast concrete greener and more cost-effective.

Mechanical Properties According to Curing Conditions of Mortar Using CO2 Hardening Cement (CO2 반응경화 시멘트 활용 모르타르의 양생조건에 따른 역학적 특성)

  • Ji-Seok Seo;Sun-Gyu Tae;Jun Lee;Bong-Chun Lee
    • Journal of the Korean Recycled Construction Resources Institute
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    • v.11 no.4
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    • pp.307-315
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    • 2023
  • In this study, mortar test specimens were produced by varying the mixing ratio of CO2 reaction hardening cement (CSC) and general cement (OPC), and the mechanical and carbonation characteristics were evaluated by controlling the primary curing temperature and secondary curing CO2 pressure. Under all curing conditions, it was observed that the higher the CSC ratio in the binder, the lower the mechanical properties. Specifically, a first curing temperature of 60 ℃ yielded higher mechanical properties compared to the case of 20 ℃, and a greater carbonation penetration depth was also observed. At a first curing temperature of 60 ℃, it was noted that the curing pressure and bending strength during the second CO2 curing were inversely proportional, while the compressive strength showed a proportional relationship. This phenomenon is believed to be due to excessive carbonation, which reduces mechanical properties, and the fact that flexural strength is more sensitive to these properties compared to compressive strength. However, based on the evaluation of the limited curing conditions, it is evident that future test conditions need to be expanded and reviewed more thoroughly.

Manufacture of Cement-Bonded Particleboards from Korean Pine and Larch by Curing of Supercritical CO2 Fluid

  • Suh, Jin-Suk;Hermawan, Dede;Kawai, Shuichi
    • Journal of the Korean Wood Science and Technology
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    • v.28 no.4
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    • pp.41-50
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    • 2000
  • Cement-bonded particleboard is being used as outdoor siding material all over the world, because this composite particularly bears a light weight, high resistance against fire, decay, and crack by cyclic freezing and thawing, anti-shock property, and strength enhancement. Construction systems are currently changing into a frame-building style and wooden houses are being constructed with prefabrication type. Therefore, they require a more durability at outdoor-exposed sides. In this study, the cement hydration property for Korean pine particle, Japanese larch particle and face- and middle layer particles (designated as PB particle below) used in Korean particleboard-manufacturing company was investigated, and the rapid manufacturing characteristics of cement-bonded particleboard by supercritical $CO_2$ curing was evaluated. Korean pine flour showed a good hydration property, however, larch flour showed a bad one. PB particle had a better hydration property than larch flour. The addition of $Na_2SiO_3$ indicated a negative effect on hydration, however, $MgCl_2$ had a positive one. Curing by supercritical $CO_2$ fluid gave a conspicuous enhancement in the performances of cement-bonded particleboards compared to conventional curing. $MgCl_2$ 3%-added PB particle had the highest properties, and $MgCl_2$ 1%-added Korean pine particle had the second class with the conditions of cement/wood ratio of 2.7, a small fraction-screened particle and supercritical curing. On the contrary, the composition of non-hammermilled or large fraction-screened particle at cement/wood ratio of 2.2 was poorer. Also, the feasibility for actual use of 3%-added, small PB particle-screened fraction was greatest of all the conventional curing treatments. Relative superiority of supercritical curing vs. conventional curing at dimensional stability was not so apparent as in strength properties. Through the thermogravimetric analysis, it was ascertained that the peak of a component $CaCO_3$ was highest, and the two weak peaks of calcium silicate hydrate and ettringite and $Ca(OH)_2$ were present in supercritical treatment. Accordingly, it was inferred that the increased formation of carbonates in board contributes to strength enhancement.

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Fabrication and Evaluation of Composite Panel with Hat-shaped Stiffeners (모자(Hat)형 보강재를 가진 복합재 패널의 제작과 평가)

  • Kim, Geon-Hui;Lim, Do-Wan;Choi, Jin-Ho;Kweon, Jin-Hwe;Lee, Tae-Joo;Song, Min-Hwan;Shin, Sang-Joon
    • Composites Research
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    • v.23 no.2
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    • pp.31-39
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    • 2010
  • In this paper, composite panels with hat-shaped stiffeners were made using the co-curing, co-bonding and secondary bonding methods. Co-curing is a manufacturing method in which the hat part and the plate are cured simultaneously in a manner that is more cost effective than other methods. Co-bonding is a method in which the stacked prepregs are cured with other cured parts, and secondary bonding is a method in which cured parts are bonded together using an adhesive. A rubber mold was manufactured for co-curing of composite panel with hat-shaped stiffeners, and finite element analyses were done to evaluate the expanding pressure of the rubber mold consistent with the curing temperature. The manufactured panels were also evaluated using a 3-D measurement tester and an ultrasonic tester. Pull-off tests were performed to evaluate their mechanical properties.

Synthesis and Characterization of Schiff Base Metal Complexes and Reactivity Studies with Malemide Epoxy Resin

  • Lakshmi, B.;Shivananda, K.N.;Prakash, Gouda Avaji;Isloor, Arun M.;Mahendra, K.N.
    • Bulletin of the Korean Chemical Society
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    • v.33 no.2
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    • pp.473-482
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    • 2012
  • A novel malemide epoxy containing Co(II), Ni(II) and Cu(II) ions have been synthesized by curing malemide epoxy resin (MIEB-13) and Co(II), Ni(II) and Cu(II) complexes of macrocyclic bis-hydrazone Schiff base. The Schiff base was synthesized by reacting 1,4-dicarbnyl phenyl dihydrazide with 2,6-diformyl-4-methyl phenol. The Schiff base and its Co(II), Ni(II) and Cu(II) complexes have been characterized by elemental analyses, spectral (IR, $^1H$ NMR, UV-vis., FAB mass, ESR), thermal and magnetic data. The curing reaction of maleimide epoxy compound with metal complexes was studied as curing agents. The stability of cured samples was studied by thermo-gravimetric analyses and which have excellent chemical (acid/alkali/solvent) and water absorption resistance. Further, the scanning electron microscopy (SEM) and definitional scanning colorimetric (DSC) techniques were confirmed the phase homogeneity of the cured systems.