Peng Cheng-hong, Zhu Wei-heng, Liu Zheng-yi, Wei Xing-zhao
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引用次数: 5
Abstract
A corroded tee pipe belonging to a 10-in new separator water line outlet installed in an offshore oil well drilling rig was investigated. The configuration of the large corroded pit had the shape of an imperfect horse's hoof with a completely corroded interior and a honeycomb-like cavity. There is a badly corroded pit at the welded seam at the joint connecting the tee pipe and flange. The material strength of the tee pipe meets the requirement of ASTM-A234 Gr. WPR, but its chemical composition does not meet the stipulated requirements. A deformed streamline structure or twin crystal in the ferrite phase can be seen near the surface or sub-surface of the perforated corrosion puncture edge. The micro-hardness is also different from that of the original material. The SEM results show that the puncture appears to have been a mode of quasi-cleavage fractures with secondary cracks along the direction of the crystal grain; thus, the failure has the features of mechanical and chemical corrosion. The corroded surface contains high amounts of O, C, and N, as well as S, Cl, Si, Na, Mg, Al, K, Ti, etc., all of which are corrosion products caused by sea water. The penetrating puncture hole at the turn of the tee pipe is likely the result of cavitation erosion accompanied by chemical/electrochemical corrosion, and the corrosion on the seam connecting the tee pipe and flange is likely the result of electrochemical corrosion.
对某海上油井钻井平台新安装的10-in分离水管出口三通管腐蚀问题进行了研究。这个被腐蚀的大坑的形状像一个不完美的马蹄,内部完全被腐蚀,还有一个蜂窝状的洞。三通管与法兰连接处焊缝处有严重腐蚀坑。三通管材料强度符合ASTM-A234 Gr. WPR要求,但化学成分不符合规定要求。在穿孔腐蚀刺穿边缘的表面或亚表面附近可以看到变形的流线结构或铁素体相的双晶。显微硬度也与原材料不同。扫描电镜结果表明,破孔表现为准解理断裂,沿晶粒方向有次生裂纹;因此,该失效具有机械腐蚀和化学腐蚀的特征。腐蚀表面含有大量的O、C、N,以及S、Cl、Si、Na、Mg、Al、K、Ti等,这些都是海水腐蚀的产物。三通管转弯处的穿透性穿孔可能是空化侵蚀伴随化学/电化学腐蚀的结果,三通管与法兰连接处的腐蚀可能是电化学腐蚀的结果。
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