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机译:水泥固化的反应模型:在微米尺度上演变C-S-H堆积密度
Department of Civil and Environmental Engineering, Massachusetts Institute of Technology,MultiScale Material Science for Energy and Environment, MIT-CNRS Joint Laboratory at Massachusetts Institute of Technology;
Department of Civil and Environmental Engineering, Massachusetts Institute of Technology,MultiScale Material Science for Energy and Environment, MIT-CNRS Joint Laboratory at Massachusetts Institute of Technology;
Department of Civil and Environmental Engineering, Massachusetts Institute of Technology,MultiScale Material Science for Energy and Environment, MIT-CNRS Joint Laboratory at Massachusetts Institute of Technology;
Department of Civil and Environmental Engineering, Massachusetts Institute of Technology;
Cement paste; Nucleation and growth; Solidification; Phase transformation; Phase-field;
机译:通过C-S-H阻隔壳扩散对水泥浆料的进化微观结构进行建模
机译:C-S-H结构的基于钙铁矿/钙锰矿和钙铁矿/氢氧化钙的模型:适用于硅酸三钙,β-硅酸二钙,硅酸盐水泥以及硅酸盐水泥与高炉渣的混合物的硬化浆体,
机译:水泥组分与NaCl溶液的溶解反应:I. Ca [OH] _2和C-S-H
机译:通过混合水泥,粉煤灰和二氧化硅烟气增加包装密度,以改善水泥膏流变学
机译:材料离子交换对水合水泥材料化学结构C-S-H珍妮特机械刚度性能和剪切变形的影响-计算模型研究。
机译:可持续掺合水泥—堆积密度对水泥浆化学效率的影响
机译:使用台式NMR测量水泥浆中C-S-H的密度,组成和解吸等温线