膨润土与水泥掺比对塑性混凝土变形特性的影响

焦凯; 党发宁; 谢凯军

引用本文:	焦凯,党发宁,谢凯军.膨润土与水泥掺比对塑性混凝土变形特性的影响[J].水利水运工程学报,2016,(4):76-84

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膨润土与水泥掺比对塑性混凝土变形特性的影响
焦凯^1,2, 党发宁¹, 谢凯军²
1.西安理工大学土木建筑工程学院，陕西西安;2.中国水利水电第三工程局有限公司，陕西西安

摘要:

通过4组不同膨润土与水泥掺比（0.93,0.50,0.35,0.26）的塑性混凝土常规三轴压缩试验，研究了膨润土与水泥掺比对塑性混凝土变形特性（割线模量、峰值应变、体积变形、模强比）的影响规律。试验结果表明，随着膨润土与水泥掺比的降低，塑性混凝土峰值应变和最大体积压缩量均显著降低，即材料抗裂性和变形性能显著降低。膨润土与水泥掺比对模强比的影响规律不一致，膨润土与水泥掺比为0.93或0.50时，塑性混凝土模强比有随围压增加而先增后降的趋势；膨润土与水泥掺比为0.35或0.26时，塑性混凝土模强比表现为随围压增加而逐渐降低的趋势。最后，根据三轴试验结果整理分析了符合Duncan-Chang本构模型的塑性混凝土本构参数。

关键词: 塑性混凝土变形特性三轴试验峰值应变膨润土

DOI：

分类号:TU 502

基金项目:水利部公益性行业科研专项基金资助项目(201501034-04)；陕西省科技统筹创新工程重点实验室项目(2014SZS15-Z01)

Impacts of bentonite and cement mixing ratio on deformation characteristics of plastic concrete

JIAO Kai^1,2, DANG Fa-ning¹, XIE Kai-jun²

1.School of Civil Engineering and Architecture，Xi’an University of Technology，Xi’an;2.Sinohydro Bureau 3rd Co.，Ltd.，Xi’an

Abstract:

By use of conventional triaxial compression tests, changing trends of the secant modulus, volume deformation, peak strain and the ratio of modulus to strength of the plastic concrete are obtained from changed bentonite and cement mixing ratios (0.93, 0.50, 0.35, 0.26). The analysis results show that the peak strain and the maximum volume compression drop significantly with the decrease of the bentomite and cement mixing ratio, namely the crack resistance and ductility of the material are significantly decreased. The impacts of the bentonite and cement mixing ratios on the ratio of modulus to strength are not very remarkable. When the bentonite and cement ratios of the plastic concrete are 0.93 or 0.50, the ratios of modulus to strength are first increased and then decreased with increase of the confining pressure. But when the betonite and cement ratios are 0.35 or 0.26, the ratios of modulus to strength decrease gradually with increase of the confining pressure. Finally, according to the research results of the triaxial tests, the analysis of parameters of the constitutive model for the plastic concrete conforming with the Duncan-Chang constitutive model has been made in the testing.

Key words: plastic concrete deformation characteristics triaxial tests peak strain bentonite