Observation of Water Penetration into Cracked and Water Repellent SHCC after Imposed Strain by Means of Neutron Radiography

Restoration of Buildings and Monuments Pub Date : 2014-04-01 DOI:10.12900/rbm14.20.2-0009
P. Wang, F. Wittmann, P. Zhang, E. Lehmann, T. Zhao
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引用次数: 1

Abstract

Huge strain capacity of SHCC under tensile stress can be reached by multiple crack formation, while the cracks remain bridged by fibers. Under protective conditions the full strain capacity can be used in practice. In this contribution it is shown that even at comparatively modest imposed strain cracks are formed, which may transport water and ions dissolved in water deep into structural elements made of SHCC. One way to reduce water penetration into cracked SHCC has been investigated, the use of an integral water repellent cement-based matrix. It is shown that in this way water penetration is significantly reduced and hence durability is increased.
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中子射线照相法观察开裂拒水型SHCC在施加应变后的水渗透
SHCC在拉应力作用下可通过形成多个裂纹而获得巨大的应变能力,而裂纹仍由纤维桥接。在保护条件下,全应变能力可用于实际。在这篇文章中表明,即使在相对适度的施加应变下,裂缝也会形成,这可能会将水和溶解在水中的离子深入到由SHCC制成的结构元件中。研究了一种减少水渗入破裂SHCC的方法,即使用整体防水水泥基基质。结果表明,在这种方式下,水渗透显著减少,因此耐久性增加。
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Restoration of Buildings and Monuments
Restoration of Buildings and Monuments
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