Numerical Search of the Optimum Curing Regimes for High-Early-Strength Concrete

Songhee Lee; Chadon Lee

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Numerical Search of the Optimum Curing Regimes for High-Early-Strength Concrete

机译：高强混凝土最佳养护方案的数值研究

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Abstract: High-early-strength concrete (HESC) made of Type Ⅲ cement attains approximately 60%-70% of its design compressive strength at ambient temperature in 1 day. A numerical method incorporating a rate-constant model was developed to optimize curing regimes for HESC at preassigned maximum temperatures of 40℃, 50℃, and 60℃ with design concrete compressive strengths of 30, 40, and 50 MPa. The use of HESC after optimization resulted in 36%-55% savings in terms of energy index, compared with the curing regime typically applied for concrete with Type I cement. Experimental verification was performed by compression tests for HESC that were cured according to the optimum regimes. Compared with conventional trial-and-error mix methods, the developed numerical model contributes to a significant reduction of the number of trial mixes and provides in a systematic way the effects of design variables on optimum curing regimes.

机译：摘要：由Ⅲ型水泥制成的高早强混凝土（HESC）在环境温度下，在1天内达到其设计抗压强度的大约60％-70％。开发了一种包含速率常数模型的数值方法，以优化HESC在预先设定的最高温度40℃，50℃和60℃，设计混凝土抗压强度分别为30、40和50 MPa时的固化方式。与通常用于I型水泥混凝土的养护方案相比，优化后使用HESC可使能源指数节省36％-55％。通过根据最佳方案固化的HESC压缩试验进行实验验证。与传统的试验和错误混合方法相比，开发的数值模型有助于显着减少试验混合物的数量，并以系统方式提供设计变量对最佳固化方案的影响。

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来源
《Journal of materials in civil engineering》 |2020年第4期|04020062.1-04020062.18|共18页
作者
Songhee Lee; Chadon Lee;
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作者单位

Dept. ot Architectural Engineering Graduate School Chung-Ang Univ. Seoul 156-756 Republic of Korea;

School of Architecture and Building Science Chung-Ang Univ. Seoul 156-756 Republic of Korea;

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原文格式 PDF
正文语种 eng
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关键词
Curing; Thermal treatment; Compressive strength; Optimum curing regime;

机译：养护;热处理;抗压强度;最佳固化方式;

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Numerical Search of the Optimum Curing Regimes for High-Early-Strength Concrete

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