Soroosh Hakimian, Abdel‐Hakim Bouzid, Lucas A. Hof
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引用次数: 0
摘要
螺栓法兰连接在海上风力涡轮机塔架结构中起着至关重要的作用,是连接塔架各部分的不可或缺的部件。本研究采用电化学技术来调查缝隙尺寸(决定缝隙厚度和缝隙深度)对 321 不锈钢法兰样板在 50°C 的 3.5 wt% 氯化钠溶液中的腐蚀行为的影响。本研究使用垫片在两个法兰表面之间形成缝隙。利用一种新型夹具来模拟垫片上的外加应力、夹具内的流体流动以及垫片和法兰的几何特性。研究结果表明,将缝隙厚度从 1.58 毫米增加到 6.35 毫米会导致法兰表面的总体腐蚀速率从 0.09 mm y-1 增加到 1.03 mm y-1,缝隙腐蚀开始时间从 0.23 小时增加到 3.12 小时。此外,将缝隙深度 (d) 从 7.49 mm 减小到 0 mm 会导致总体腐蚀速率从 0.09 mm y-1 降至 0.04 µm y-1,而 d = 3.81 和 d = 0 mm 的情况在恒电位测试后没有观察到缝隙腐蚀。
Bolted flanged joints play a critical role in offshore wind turbine tower structures, serving as integral components that connect various sections of the tower. This research study employs electrochemical techniques to investigate the effect of gap dimensions, which determine the crevice gap thickness and crevice depth, on corrosion behavior of 321 stainless steel flange sample plates in a 3.5 wt% NaCl solution at 50°C. Gaskets are used in this study to create gaps between two flange surfaces. A novel fixture is utilized to simulate the applied stress on the gasket, fluid flow within the fixture, and the geometric aspects of the gasket and flange. The findings reveal that increasing the gap thickness from 1.58 to 6.35 mm results in a rise in the general corrosion rate of the flange surface from 0.09 to 1.03 mm y−1, and crevice corrosion initiation time increases from 0.23 to 3.12 h. Furthermore, reducing the crevice depth (d) from 7.49 to 0 mm leads to a decrease in the general corrosion rate from 0.09 mm y−1 to 0.04 µm y−1, and cases with d = 3.81 and d = 0 mm show no observable crevice corrosion after potentiostatic tests.
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