This investigation presents a comparative study on mechanical properties, electrical resistivity and microstructure of mortar under DC current, compared to mortar in rest (no current) conditions. Monitoring was performed from 24h after casting until 84 days of cement hydration. A current density level of 10 mA/m2 was chosen as a simulation regime. It was found that the DC current exerts microstructural changes in the bulk mortar matrix and thereby affects electrical properties and mechanical performance. Whereas the latter were slightly influenced, the former were modified to a more significant extent; the current flow was found to cause initial densification of the bulk matrix at earlier stages (until 14 days of age), whereas coarsening of the material was observed after 56 and until 84 days of cement hydration. Additionally, numerical simulation of the stray current distribution is performed, meant to serve as a basis for further elaborated modelling of the level of current density that could exert significant microstructural alterations in a bulk cement-based matrix.
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机译:这项研究提出了与在静止(无电流)条件下的砂浆相比,在直流电流下砂浆的机械性能,电阻率和微观结构的比较研究。从浇铸后的24小时到水泥水化84天进行监测。选择10 mA / m2的电流密度水平作为模拟方案。已经发现,直流电流在块状砂浆基体中产生微观结构变化,从而影响电性能和机械性能。后者受到的影响较小,而前者的影响则更大。结果发现,电流在较早的阶段(直到14天龄)引起块状基质的初始致密化,而在水泥水化56天至84天后观察到材料变粗。另外,进行了杂散电流分布的数值模拟,旨在作为进一步详细建模电流密度水平的基础,该电流密度水平可以在散装水泥基基质中产生显着的微观结构变化。
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