Polymer-modified cement using belite-rich cement and carbonation reaction

Sakai Etsuo; Nakajima Kenji; Kubokawa Toyoaki; Sotokawa Sachiko; Daimon Masaki

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Polymer-modified cement using belite-rich cement and carbonation reaction

机译：使用富贝利特水泥和碳化反应的聚合物改性水泥

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This paper describes the hardening mechanisms and mechanical properties of a new polymer-modified cement (PMC), produced by carbonation of belite-rich cement. A PMC containing carbonated beliterich cement and ethylene vinyl acetate (EVA), copolymer has high bending strength, and carbonation improves the toughness. The reaction rate of the cement is related to the amounts of CO2 in carbonated samples with or without EVA. The reaction of belite is accelerated by carbonation and the addition of EVA. The pore volumes of carbonated samples containing EVA are smaller than those of EVA-free samples. (C) 2015 Elsevier Ltd. All rights reserved.

机译：本文介绍了一种新型的聚合物改性水泥（PMC）的硬化机理和力学性能，该水泥是通过富贝利特水泥碳化而生产的。 PMC包含碳酸化的beliterich水泥和乙烯醋酸乙烯酯（EVA），共聚物具有较高的弯曲强度，而碳化则改善了韧性。水泥的反应速率与有或没有EVA的碳酸化样品中的CO2含量有关。碳化和添加EVA促进了贝利特石的反应。含EVA的碳酸样品的孔体积小于不含EVA的样品的孔体积。（C）2015 Elsevier Ltd.保留所有权利。

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来源
《Construction and Building Materials》 |2016年第may1期|333-336|共4页
作者
Sakai Etsuo; Nakajima Kenji; Kubokawa Toyoaki; Sotokawa Sachiko; Daimon Masaki;
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作者单位

Tokyo Inst Technol, Dept Ceram Sci, Tokyo 152, Japan;

Tokyo Inst Technol, Dept Ceram Sci, Tokyo 152, Japan;

Cent Res Ctr, Taiheiyo Cement Corp, Chiba, Japan;

Cent Res Ctr, Taiheiyo Cement Corp, Chiba, Japan;

Tokyo Inst Technol, Dept Ceram Sci, Tokyo 152, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Polymer-modified cement; Belite-rich cement; Carbonation; Ethylene vinyl acetate; Adsorption; Strength; Reaction;

机译：聚合物改性水泥;富贝利特水泥;碳化;乙烯醋酸乙烯酯;吸附;强度;反应;

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专利

1. (103616)Influence of water to cement ratio on CO_2 uptake capacity of belite-rich cement upon exposure to carbonation curing [J] . Cement & concrete composites . 2020,第期

机译：（103616）水对水泥比对CO_2摄取能力的影响，富含碳酸化固化后的富含含量的水泥
2. Microstructural densification and CO2 uptake promoted by the carbonation curing of belite-rich Portland cement [J] . Jang J. G., Lee H. K. Cement and Concrete Research . 2016,第Null期

机译：富贝利特硅酸盐水泥的碳化固化促进了微观结构的致密化和二氧化碳的吸收
3. Reply to the discussion of the papers "Impact of hydrated magnesium carbonate additives on the carbonation of reactive MgO cements" and "Enhancing the carbonation of MgO cement porous blocks through improved curing conditions", by SA Walling and JL Provis [J] . Unluer C., Al-Tabbaa A. Cement and Concrete Research . 2016,第Null期

机译：SA Walling和JL Provis对论文“水合碳酸镁添加剂对反应性MgO水泥碳化的影响”和“通过改善固化条件来增强MgO水泥多孔砖的碳化”的讨论的答复
4. New Polymer-modified Cement Using Belite-rich Cement and the Carbonation Reaction [C] . E. Sakai, K. Nakajima, T. Kubokawa International congress on the chemistry of cement . 2007

机译：新的聚合物改性水泥使用富含富含含量的水泥和碳酸化反应
5. Carbon Sequestration Strategies in Cement Based Material: Carbon Nano Platelet Admixture Interaction and Long term Carbonation of CO2 injected Concrete Blocks. [D] . Chan, Yan Yin. 2017

机译：水泥基材料中的碳固存策略：碳纳米板外加剂相互作用和二氧化碳注入混凝土块的长期碳化。
6. Correction: Yan X. et al. Study on Utilization of Carboxyl Group Decorated Carbon Nanotubes and Carbonation Reaction for Improving Strengths and Microstructures of Cement Paste. Nanomaterials 2016 6 153 [O] . Xiantong Yan, Hongzhi Cui, Qinghua Qin, 2016

机译：校正：YanX.等。利用羧基修饰碳纳米管和碳酸化反应提高水泥浆强度和微观结构的研究。纳米材料20166153
7. A discussion of the papers "Impact of hydrated magnesium carbonate additives on the carbonation of reactive MgO cements" and "Enhancing the carbonation of MgO cement porous blocks through improved curing conditions", by C. Unluer A. Al-Tabbaa [O] . Walling S.A., Provis J.L. 2016

机译：讨论“水合碳酸镁添加剂对活性mgO水泥碳化的影响”和“通过改善固化条件促进mgO水泥多孔块的碳化”，作者：C. Unluer＆a。al-Tabbaa
8. Enhancement of cemented waste forms by supercritical CO(sub 2) carbonation of standard portland cements [R] . Rubin, J. B. , Carey, J. , Taylor, C. M. V. 1997

机译：通过标准波特兰水泥的超临界CO（sub 2）碳酸化来增强胶结废物的形成

Polymer-modified cement using belite-rich cement and carbonation reaction

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