Predictions of compressive strength of GPC blended with GGBFS developed at varying temperatures

Shin S.; Goh G.; Lee C.

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Predictions of compressive strength of GPC blended with GGBFS developed at varying temperatures

机译：GPC与不同温度开发的GPC混合的压缩强度预测

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Curing temperature is one of the primary factors determining geopolymeric reactions. A total of 66 cylindrical specimens, subjected to 11 different curing regimes over 24 h, were tested for compressive strengths at 1, 28, and 90 days after curing. The test results demonstrated that coupled effects exist between the maximum temperature, its duration, and the subsequent residual temperature. A model based on the weighted maturity concept was developed to predict compressive strength, reflecting the coupled effects of temperature and duration. The developed model was shown to be superior to other models based on the maturity or rate constant concepts. (C) 2019 Published by Elsevier Ltd.

机译：固化温度是确定地质聚合物反应的主要因素之一。在固化后的1,28和90天内测试总共66个圆柱形标本，经过110多个不同的固化制度，在固化后的1,28和90天内测试压缩强度。测试结果表明，在最高温度，持续时间和随后的残留温度之间存在偶联的效果。开发了一种基于加权成熟概念的模型来预测压缩强度，反映了温度和持续时间的耦合效果。基于成熟度或速率不变概念，显示出开发的模型优于其他模型。（c）2019年由elestvier有限公司发布

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来源
《Construction and Building Materials》 |2019年第may10期|1-9|共9页
作者
Shin S.; Goh G.; Lee C.;
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作者单位

Chung Ang Univ Grad Sch Architectural Engn Seoul 156756 South Korea;

Chung Ang Univ Grad Sch Architectural Engn Seoul 156756 South Korea;

Chung Ang Univ Sch Architecture & Bldg Sci Coll Engn Seoul 156756 South Korea;

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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
Geopolymer composite concrete; Compressive strength; Curing temperature; Prediction model;

机译：地缘聚合物复合混凝土;抗压强度;固化温度;预测模型;

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1. Predictions of compressive strength of GPC blended with GGBFS developed at varying temperatures [J] . Shin S., Goh G., Lee C. Construction and Building Materials . 2019,第MAYa10期

机译：在不同温度下开发的与GGBFS混合的GPC的抗压强度预测
2. Modelling of compressive stress-strain relationships of GPCC with fly ash blended with GGBFS [J] . Shin Sangmin, Choi Yunsun, Lee Chadon Magazine of Concrete Research . 2020,第23a24期

机译：用GGBFS与粉煤灰混合GGBF的GPCC压缩应力 - 应变关系的建模
3. Compressive strength of GGBFS based GPC under thermal curing [J] . Rajarajeswari A., Dhinakaran G. Construction and Building Materials . 2016,第NOVa15期

机译：基于GGBFS的GPC在热固化下的抗压强度
4. Prediction of Compressive Strength of Concrete by Non-destructive Inspection based on Case Studies in Developing Countries [C] . MALIHA Maisha, NISHIWAKI Tomoya, CHU Hang, 日本建築学会;日本建築学会大会 . -1

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5. Strength Properties of Stabilized Compressed Earth Blocks with Varying Soil Compositions [D] . Allen, Graham Thomsen Russell 2012

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6. Prediction on Compressive and Split Tensile Strengths of GGBFS/FA Based GPC [O] . Songhee Lee, Sangmin Shin 2019

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7. Study on the Effect of Elevated Temperatures on Residual Compressive Strength of Ternary Blended Concrete using Fly Ash and Micro Silica [O] . Balakrishnaiah. D 2017

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Predictions of compressive strength of GPC blended with GGBFS developed at varying temperatures

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