Developing a very high-strength low-CO_2 cementitious matrix based on a multi-binder approach for structural lightweight aggregate concrete

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Developing a very high-strength low-CO_2 cementitious matrix based on a multi-binder approach for structural lightweight aggregate concrete

机译：基于多粘结剂方法开发结构轻质骨料混凝土的超高强度低CO_2水泥基

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Structural lightweight aggregate concrete (LWAC) requires a high-strength cementitious matrix to counteract the low strength of the lightweight aggregates. This article combines synergistic SCMs and optimized mix packing densities to the cementitious matrix to simultaneously achieve high-strength and low-CO2. Metakaolin, silica fume, nano-silica, and fly ash were used in binary, ternary, and quaternary systems. The results revealed that it is possible to develop a compressive strength above 150 MPa, reducing CO2-emissions up to 43%. By combining SCMs with packing modeling, it was possible to achieve a high-strength, low-CO2 cementitious matrix that can be used in high-performance LWAC in the future. (C) 2019 Elsevier Ltd. All rights reserved.

机译：结构轻质骨料混凝土（LWAC）需要高强度水泥基体，以抵消轻质骨料的低强度。本文将协同SCM和优化的混合填充密度结合到水泥基体上，以同时实现高强度和低CO2。偏高岭土，硅粉，纳米二氧化硅和粉煤灰用于二元，三元和四元体系。结果表明，有可能开发出高于150 MPa的抗压强度，最多可将CO2排放降低43％。通过将SCM与填充模型相结合，可以获得高强度，低CO2的胶结基体，该基体将来可用于高性能LWAC。（C）2019 Elsevier Ltd.保留所有权利。

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《Construction and Building Materials》 |2020年第20期|117830.1-117830.11|共11页
作者

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作者单位

Pontificia Univ Catolica Chile Sch Engn Dept Construct Engn & Management Vicuna Mackenna 4860 Edificio San Agustin Piso 3 Santiago Chile;

Pontificia Univ Catolica Chile Sch Engn Dept Construct Engn & Management Vicuna Mackenna 4860 Edificio San Agustin Piso 3 Santiago Chile|HEAT SpA Santiago Chile;

Pontificia Univ Catolica Chile Sch Engn Dept Construct Engn & Management Ctr Sustainable Urban Dev CEDEUS Vicuna Mackenna 4860 Eaificio San Agustin Piso 3 Santiago Chile;

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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
Cement paste; Packing modeling; Supplementary cementitious materials; Nano-silica; Metakaolin; Silica fume; Fly ash; Lightweight concrete;

机译：水泥浆;包装造型;辅助胶凝材料;纳米二氧化硅偏高岭土;硅粉;粉煤灰;轻质混凝土;

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1. Physico-mechanical, microstructural and dynamic properties of newly developed artificial fly ash based lightweight aggregate - Rubber concrete composite [J] . Dehdezi Pejman Keikhaei, Erdem Savas, Blankson Marva Angela Composites . 2015,第sepa期

机译：新开发的人造粉煤灰轻质骨料的物理力学，微观结构和动力特性-橡胶混凝土复合材料
2. New approach for shrinkage prediction of high-strength lightweight aggregate concrete [J] . Hugo Costa, Eduardo Julio, Jorge Lourenco Construction and Building Materials . 2012,第期

机译：高强度轻骨料混凝土收缩预测的新方法
3. Mixture Proportioning Approach for Low-CO_2 Concrete Using Supplementary Cementitious Materials [J] . Keun-Hyeok Yang, Sung-Ho Tae, Dong-Uk Choi ACI Materials Journal . 2016,第4期

机译：使用辅助胶凝材料的低CO_2混凝土混合比例法
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机译：生态轻质骨料的高强轻质混凝土梁的抗弯性能
5. Field Investigation of Pumping Air Entrained Concrete and Validation of the Sam Test on Lightweight Aggregate Concrete Mixtures [D] . ?Staffileno, Chad Jordan 2020

机译：泵送空气夹带混凝土的实地调查和轻质骨料混凝土混合物SAM试验的验证
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机译：切碎的玄武岩纤维增强轻质骨料混凝土的力学性能和切碎的聚丙烯腈纤维增强的轻质骨料混凝土的力学性能
7. An Experimental Study for the Strength Variations of High-strength Lightweight Concrete According to Grain-size of Artificial Lightweight Aggregate [O] . Sung Chil Kim, Ki Chan Park, Hyoung Wook Choi 2011

机译：人工轻质聚集体粒度高强度轻质混凝土强度变化的实验研究
8. Effect of water absorption by the aggregate on properties of high-strength lightweight concrete [R] . Punkki, J. 1995

机译：骨料吸水性对高强轻质混凝土性能的影响

Developing a very high-strength low-CO_2 cementitious matrix based on a multi-binder approach for structural lightweight aggregate concrete

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