Optimization of shrinkage and crack resistance performance of Engineered Cementitious Composites (ECC)

机译：工程水泥复合材料（ECC）的收缩率和抗裂性能的优化

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Optimization of shrinkage and crack resistance performance of Engineered Cementitious Composites (ECC) is investigated due to ECC with higher drying shrinkage. Free shrinkage tests were used to research the influence of fiber content, superplasticizer (SP) and finely ground quartz powder (QP) on the total drying shrinkage value of ECC. Restrained drying shrinkage tests (ring tests) were used to research the effect of fiber content, superplasticizer (SP) and finely ground quartz powder (QP) on crack resistance performance of ECC. The results of the tests show that fiber content has little effect on the total drying shrinkage value of ECC in most cases and SP, QP can slightly reduce it. But fiber content has significant effect on crack resistance performance of ECC and SP, QP can further enhance it. The maximum crack width can be limited to 40∼100µm. It is very important for the durability of ECC.

机译：由于ECC具有较高的干燥收缩率，因此对工程水泥复合材料（ECC）的收缩率和抗裂性能进行了优化。采用自由收缩试验研究了纤维含量，高效减水剂（SP）和细磨石英粉（QP）对ECC的总干燥收缩值的影响。采用约束干燥收缩试验（环试验）研究纤维含量，高效减水剂（SP）和石英细粉（QP）对ECC抗裂性能的影响。测试结果表明，在大多数情况下，纤维含量对ECC的总干燥收缩率值几乎没有影响，而SP，QP可以稍微降低它。但是纤维含量对ECC和SP的抗裂性能有显着影响，QP可以进一步增强它。最大裂纹宽度可以限制在40〜100μm。这对于ECC的耐久性非常重要。

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《2011 International Conference on Electric Technology and Civil Engineering》|2011年|p.534-538|共5页
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Mao Xinqi; Zhao T. J.; Zhang P.;
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中图分类建筑结构;
关键词
ECC; crack resistance; crack width; free drying shrinkage; restrained drying shrinkage;

机译：ECC;抗裂性;裂纹宽度;自由干燥收缩;约束干燥收缩;

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5. Optimization of shrinkage and crack resistance performance of Engineered Cementitious Composites (ECC) [C] . Mao Xinqi, Zhao T. J., Zhang P. International Conference on Electric Technology and Civil Engineering . 2011

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Optimization of shrinkage and crack resistance performance of Engineered Cementitious Composites (ECC)

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