Factors influencing the time dependence of porosity relaxation in cement during sorption: Experimental results from spatially resolved NMR

Magdalena Janota, Ors Istok, David A. Faux, Peter J. McDonald
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引用次数: 1

Abstract

We use 1H nuclear magnetic resonance (NMR) methods to show that the relaxation time governing the redistribution of the gel-pore porosity in cement pastes during sorption depends, not surprisingly, on the dry state saturation and also, more surprisingly, on the sample size. The relaxation time is typically in the range 20 to 40 h for cylindrical samples 60 mm long dried to saturations between about 40 and 55%. It increases up to 200 h for samples dried to between 20 and 30% saturation. The times are all very much longer than for 1 mm samples. There is additional evidence to support the idea that the relaxation of hydrate inter-layer sized spaces occurs on at least two timescales, one of which is very much longer (months) than any of those listed above.

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影响水泥吸附过程中孔隙松弛时间依赖性的因素:来自空间分辨核磁共振的实验结果
我们使用1H核磁共振(NMR)方法表明,在吸附过程中,控制水泥浆中凝胶孔孔隙度再分配的松弛时间取决于干态饱和度,这并不奇怪,更令人惊讶的是,还取决于样本量。对于60 mm长的圆柱形样品,干燥到约40至55%的饱和度,松弛时间通常在20至40小时的范围内。它增加到200小时的样品干燥到20%和30%之间的饱和度。时间都比1 mm的样品长得多。还有额外的证据支持水合物层间空间的松弛至少发生在两个时间尺度上,其中一个时间尺度比上面列出的任何一个时间尺度都要长得多(月)。
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