Investigations into the Water Repellent Surface Near Layer in Concrete by Neutron Radiography

P. Zhang, F. Wittmann, T. Zhao, E. Lehmann
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引用次数: 1

Abstract

By impregnation of concrete with a water repellent compound such as silane, a water repellent surface layer can be established. Due to this surface impregnation capillary absorption of water and aqueous salt solutions can be significantly reduced. The aim of this protective surface treatment is in many cases to obtain better frost resistance and to reduce chloride penetration. Water vapor can still transgress the impregnated layer in and out of concrete. In the contribution experimental results to visualize the width and the water content within the water repellent surface layer are described. The water distribution was determined quantitatively by neutron radiography. The results obtained allow to explain earlier findings, which indicated that an efficient chloride barrier can be established by deep impregnation only. In a water repellent layer with a thickness lower than 6 mm there remains enough water which allows reduced migration of chloride into the pore space of the material. The requirements of published recommendations are herewith supported and justified. (A)
用中子射线照相法研究混凝土近层拒水表面
用硅烷等拒水化合物浸渍混凝土,可建立拒水表面层。由于这种表面浸渍毛细吸收的水和含水盐溶液可以显著减少。在许多情况下,这种保护性表面处理的目的是获得更好的抗冻性和减少氯化物的渗透。水蒸气仍然可以穿过浸渍层进出混凝土。在贡献的实验结果可视化的宽度和水的含量在防水表面层内描述。用中子射线照相法定量测定了水的分布。得到的结果可以解释早期的发现,表明只有通过深度浸渍才能建立有效的氯化物屏障。在厚度低于6mm的防水层中,保留足够的水,从而减少氯离子向材料孔隙空间的迁移。在此支持和证明已公布的建议的要求。(一)
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