Shiva Shirani , Ana Cuesta , Isabel Santacruz , Angeles G. De la Torre , Ana Diaz , Pavel Trtik , Mirko Holler , Miguel A.G. Aranda
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引用次数: 0
摘要
波特兰水泥(PC)和混合物的水化过程非常复杂,因为其中存在许多在不同长度尺度上具有极大异质性的成分。因此,需要具有高空间分辨率和大视场扫描的三维纳米成像技术。在这里,同步辐射 X 射线近场层析成像技术用于研究 0.2 毫米厚毛细管中的四种糊状物:含有 CaCl2 的 PC、通过 C-S-H 成核播种增强的 PC 水合、部分用偏高岭土替代的 PC 以及部分用偏高岭土和石灰石替代的 PC。数据分析的重点是无定形成分的特征:(i) C-S-H 和 C-A-S-H 凝胶;(ii) 铁铝硅质水镁石;(iii) 偏高岭土;(iv) 碳铝酸盐,类 AFm。同步加速器层析成像技术可生成电子密度和吸收系数层析成像图,由此产生的双变量图有助于确定这些非晶成分的特征。所达到的空间分辨率(220 纳米)和良好的对比度使我们能够确定纳米特征,包括无定形成分的质量密度和空间分布。例如,两种加速浆料之间的 C-S-H 凝胶质量密度差异就很详细。
X-ray near-field ptychographic nanoimaging of cement pastes
The hydration processes of Portland cements (PC) and blends are complicated as there are many components with great heterogeneity at different length scales. Thus, 3D nanoimaging techniques with high spatial resolution and scanning large fields of view are needed. Here, synchrotron X-ray near-field ptychographic tomography is used to investigate four pastes within 0.2 mm thick capillaries: PC with CaCl2, PC hydration enhanced by C-S-H nucleation seeding, PC partly substituted with metakaolin, and PC partly substituted with metakaolin and limestone. Data analysis emphasis has been placed on the characterization of amorphous components: (i) C-S-H and C-A-S-H gels; (ii) iron aluminium siliceous hydrogarnets; (iii) metakaolin; and (iv) aluminium carboaluminate, AFm-like. Synchrotron ptychotomography yields electron density and absorption coefficient tomograms and the resulting bivariate plots are instrumental for characterising these amorphous components. The attained spatial resolution, ∼220 nm, with very good contrast allowed us to determine nanofeatures including mass densities and spatial distributions of amorphous components. For instance, the C-S-H gel mass density differences between the two type of accelerated pastes are detailed.
期刊介绍:
Cement and Concrete Research is dedicated to publishing top-notch research on the materials science and engineering of cement, cement composites, mortars, concrete, and related materials incorporating cement or other mineral binders. The journal prioritizes reporting significant findings in research on the properties and performance of cementitious materials. It also covers novel experimental techniques, the latest analytical and modeling methods, examination and diagnosis of actual cement and concrete structures, and the exploration of potential improvements in materials.
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