保护嵌入玻璃纤维增强混凝土中的钢钩免受大面积腐蚀

Q1 Earth and Planetary Sciences
Husnu Gerengi , Muhammed Maraşlı , Marziya Rizvi , Beni Kohen , Ismail Taşkıran
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引用次数: 0

摘要

本研究评估了嵌入 GFRC 的钢钩的腐蚀行为,这些钢钩受到富锌(96% Zn)镀锌涂层的保护。涂层为钢钩提供了主动阴极保护和被动物理屏蔽。当阳极小于钢材总表面时,可能会形成大电池腐蚀。因此,使用建筑密封剂对预埋件连接处的钢钩进行了额外密封,以防止进水和空气交换。研究在盐雾箱中分三个阶段进行。首先,让埋入 GFRC 的电镀锌钢钩自由腐蚀 7 天。第二阶段,在电镀锌钢钩上涂抹富锌涂层并观察 7 天。在第三阶段,钢钩受到富锌涂层以及底漆和建筑密封胶的保护,并经过 7 天的观察。为了评估电镀锌钢钩和形成的腐蚀产物,对材料的厚度进行了测量。通过研究挂钩在不同接触点和不同时间段后的表面形态,推断金属表面的腐蚀情况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Protection of steel hooks embedded in glass-fiber-reinforced concrete against macrocell corrosion

This study evaluated the corrosion behavior of steel hooks embedded in GFRC, which were protected by a zinc-rich (96% Zn) galvanizing coating. The coating provided the hooks with active cathodic protection and a passive physical shield. Macrocell corrosion may form when the anode is smaller than the total steel surface. Thus, the steel hooks at the embedment juncture were additionally sealed against water ingress and air exchange using a construction sealant. The study was conducted in three phases in a salt-spray chamber. First, the electrogalvanized steel hooks embedded in GFRC were allowed to freely corrode for 7 days. In the second phase, the electrogalvanized steel hooks were painted with the zinc-rich coating and observed over 7 days. In the third phase, the steel hooks were protected by the zinc-rich coating together with a primer and construction sealant, and observed over 7 days. To evaluate the electrogalvanized hooks and the corrosion products formed, the thickness of the material was measured. Corrosion on the metal surface was inferred by studying the surface morphology of the hooks at various points of contact and after different periods of time.

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来源期刊
Petroleum Research
Petroleum Research Earth and Planetary Sciences-Geology
CiteScore
7.10
自引率
0.00%
发文量
90
审稿时长
35 weeks
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