目的:对某炼油厂原料水罐Q235 B钢腐蚀开裂失效原因进行分析。方法采用宏观形貌、金相组织和断口观察以及成分分析和力学性能测定等手段,分析Q235 B钢腐蚀开裂失效的宏观和微观行为。结果 Q235 B钢在污水罐罐顶形成的湿硫化氢环境中发生沿晶型应力腐蚀开裂。腐蚀过程中,电化学反应产生的氢渗入基体,导致微裂纹的萌生。腐蚀产物在基体表面积聚,其自身体积膨胀以及涂层的闭塞作用对基体形成非常大的拉应力。结论结合应力分析和环境分析,Q235B钢含硫污水罐的腐蚀开裂失效机制为硫化氢应力腐蚀开裂,应力来源于氢渗透和腐蚀产物膨胀。
ABSTRACT:Objective Cause for corrosion crack failure of Q235B steel water tank served in a refinery was analyzed. Methods The macroscopic and microscopic behaviors of Q235B steel corrosion crack failure were characterized by means of macro-morpholo-gy, microstructure, fracture observation, chemical composition analysis and mechanical property analysis. Results In the humid at-mosphere containing H2 S formed at the top of the water tank, inter-granular stress corrosion cracks occurred for the Q235B steel. During the corrosion, micro-cracks were induced by permeation of the hydrogen generated by electrochemical reactions into the sub-strate. Meanwhile, the corrosion products accumulated on the surface of the substrate. Extremely large tensile stress was formed as a
result of the combined effect of expansion of corrosion products and occlusion of the coating. Conclusion Combining stress analysis and environment analysis, the corrosion cracking failure mechanism of the Q235B steel sulfur-containing waste water tank was stress corrosion cracking induced by H2 S, and the stress was derived from hydrogen permeation and the expansion of the corrosion products.
参考文献
| [1] | 靳大纯.某厂含硫污水罐的腐蚀原因分析及防护措施[J].腐蚀与防护,2001(06):263-264. |
| [2] | 丁毅,赵骏,师红旗,马立群.高压加氢换热器Ω环开裂失效分析[J].中国腐蚀与防护学报,2010(05):413-415. |
| [3] | Jian-Qun Tang;Jian-Ming Gong;Xian-Chen Zhang .Comparison on the cracking susceptibility of different low alloy steel weldments exposed to the environment containing wet H_2S[J].Engineering failure analysis,2006(7):1057-1064. |
| [4] | 褚武扬;乔利杰;陈奇志.断裂与环境断裂[M].北京:科学出版社,2000 |
| [5] | J. Wang;A. Atrens .Analysis of service stress corrosion cracking in a natural gas transmission pipeline, active or dormant?[J].Engineering failure analysis,2004(1):3-18. |
| [6] | 张述林,李敏娇,王晓波,陈世波.18-8奥氏体不锈钢的晶间腐蚀[J].中国腐蚀与防护学报,2007(02):124-128. |
| [7] | 刘智勇,王福明,程学群,吕胜杰,段振国,李晓刚.20钢热水管焊缝爆裂的失效分析[J].腐蚀科学与防护技术,2013(01):30-34. |
| [8] | 张耀丰,丁毅,陆晓峰,顾伯勤.304不锈钢在H2S介质条件下的应力腐蚀[J].中国腐蚀与防护学报,2007(02):101-103,108. |
| [9] | SADEGHI E.Failure Analysis of Stress Corrosion Cracking Occurred in a Gastrinsmission Steel Pipeline[J].Enginee-ring Failure Analysis,2011(18):963-970. |
| [10] | 李明,李晓刚,陈钢,刘智勇.硫化氢环境下氢扩散的影响因素[J].北京科技大学学报,2007(01):39-44. |
| [11] | 陈茂军,罗兴.高含H2S和CO2天然气井中的钻采设备防腐措施[J].表面技术,2006(01):80-82,90. |
| [12] | 钟书明.原料水罐开裂原因分析[J].油气田地面工程,2009(05):89. |
| [13] | 刘涛 .大型原油储罐的应力腐蚀开裂及安全性研究[D].南京工业大学,2009. |
| [14] | 刘智勇,李明,李晓刚.16Mn(HIC)钢在硫化氢环境中的应力腐蚀开裂行为[J].中国腐蚀与防护学报,2006(06):360-364,370. |
| [15] | F. Trebuna;F. Simcak;J. Bocko .Failure analysis of storage tank[J].Engineering failure analysis,2009(1):26-38. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%