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316L不锈钢在循环水中点蚀的氯离子浓度阈值研究
引用本文:谢文州,郦和生,杨玉. 316L不锈钢在循环水中点蚀的氯离子浓度阈值研究[J]. 石油化工腐蚀与防护, 2013, 30(1): 8-10,15
作者姓名:谢文州  郦和生  杨玉
作者单位:中国石油化工股份有限公司北京北化院燕山分院,北京,102500
摘    要:采用电化学法研究了316L不锈钢在循环水中的点蚀电位(瓯)、蚀孔深度和数目与cl-质量浓度的关系。结果表明,常温下316L不锈钢的Eb总是随着cl-质量浓度的增大而减小,当cl-质量浓度小于900mg/L时,增大cl-质量浓度易导致点蚀敏感,而大于该值时增大cl-质量浓度不会明显增大点蚀倾向;从蚀孔深度和表面蚀孔数目可以看出,随着cl-质量浓度升高,最大蚀孔深度增大,当cl-质量浓度较大时这种增大变缓慢;316L不锈钢在cl-质量浓度小于1150mg,/L时点蚀倾向对cl-质量浓度敏感,在cl-质量浓度大于l150mg/L时点蚀倾向对cl-质量浓度不敏感,其点蚀倾向由大变小的cl-质量浓度阈值为1150mg/L。

关 键 词:循环水316L不锈钢点蚀氯离子浓度阈值

Study on Critical Chlorine Ion Concentration for Pitting Corrosion of 316L Stainless Steel in Cooling Water
Xie Wenzhou , Li Hesheng , Yang Yu. Study on Critical Chlorine Ion Concentration for Pitting Corrosion of 316L Stainless Steel in Cooling Water[J]. Petrochemical Corrosion and Protection, 2013, 30(1): 8-10,15
Authors:Xie Wenzhou    Li Hesheng    Yang Yu
Affiliation:(Yanshan Branch,SINOPEC Beijing Research Institute of Chemical Industry,Beijing 102500,China)
Abstract:The relationship of electric potential (Eb ) , pitting depth and number of pitting corrosion of 316L stainless steel in cooling water with C1 is studied by electrochemistry. The results show that the pitting corrosion electric potential ( Eb ) goes down with the increasing chloride ion concentration in ambient temperature. When Cl- concentration is lower than 900 mg/L,further increasing the C1- concentration will concentration is higher than 900 rag/L, further increase the sensitivity of pitting corrosion. When C1- increasing the C1- concentration has no greater impact on pitting corrosion tendency. As seen from depths and number of corrosion pits, The depth of the largest corrosion pits becomes greater with rising C1- concentration, and when the C1- concentration is at the high level, the increase of depth of corrosion pits will slow down. The pitting corrosion of 316L stainless steel is very sensitive to C1 - ions at a concentration of 〈 1150mg/L and is not sensitive to C1 - ions at a concentration of 〉 ll50mg/L. The critical C1- concentration obtained by depth and number of pits is 1150 mg/L.
Keywords:cooling water  316L stainless steel  pitting corrosion  critical chlorine ion concentration
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