通过正交表设计实验,利用高温高压釜腐蚀实验并辅以失重法,研究了温度、Cl-浓度、S2-浓度和HCO3-浓度对G105钻杆材料多元腐蚀行为的影响。采用体视显微镜和SEM观察腐蚀形态和产物膜形貌,同时利用X射线能谱分析仪(EDS)进行产物膜成分分析。结果表明,在实验研究范围内,NaHCO3浓度是最大的影响因素,其次是温度和Na2S浓度,NaCl浓度的影响最小;腐蚀环境严重影响腐蚀速率;在60℃,NaCl浓度为5g/L,Na2S浓度为7g/L以及NaHCO3浓度为1g/L环境下,G105钻杆材料的腐蚀以NaHCO3引起的腐蚀为主;在60℃,NaCl浓度为50g/L,Na2S浓度为30g/L以及NaHCO3浓度为30g/L环境下,G105钻杆材料的腐蚀以Na2S引起的腐蚀为主。
The influence of temperature, Cl- concentration, Se concentration and HCO3- concentration on G105 muhifaetor corrosion behavior was investigated by high temperature and pressure kettle with weight loss method in this paper. And the experiments were arranged with orthogonal table. The corrosion form and prod- uct topography were observed by stereomicroscope and SEM, and the composition of corrosion product was ana- lyzed by X-ray energy spectrum analyzer (EDS). The results show that, in the research range of this test, NaHCO3 concentration was the biggest factor, the second was temperature and Na2S concentration, while NaCl concentration was the minimum factor; corrosion environment seriously affects corrosion rate; at the tempera- ture of 60℃, when NaCl concentration was 5g/L, Na2S concentration was 7g/L and NaHCO3 concentration was 1g/L, the main corrosion of G105 drill pipe materials was caused by NaHCOa. At the temperature of 60℃, when NaCl concentration was 50g/L, Na2S concentration was 30g/L and NaHCO3 concentration was 30g/L, the corrosion was mainly caused by Na2S.
参考文献
| [1] | Fierro G;Ingo G M;Mancia F .XPS investigation on the corrosion behavior of 13Cr martensitic stainless steel in CO2 H2S-C1 environments[J].Corrosion,1989,45(l0):814-823. |
| [2] | Masamura K;Hashizume S;Sakai J.Polarization behavior of high-alloy OCTG inCO2 environment as affected by chlorides and sulfides[J].Corrosion,1987(06):359. |
| [3] | 李鹤林;白真权;刘道新 等.模拟油田H.S/CO2环境中N80钢的腐蚀及影响因素研究[J].材料保护,2003,36(04):32-34. |
| [4] | 周计明 .油管钢在含CO<,2>/H<,2>S高温高压水介质中的腐蚀行为及防护技术的作用[D].西北工业大学,2002. |
| [5] | Vedage H;Ramanarayanan T A;Mumford J D et al.Elec- trochemical growth of iron sulfide films in H2 S saturated chloride media[J].Corrosion,1993,49:114-121. |
| [6] | 文九巴,郭炜,赵胜利,马景灵,焦孟旺.Al-Zn-Bi系合金在NaCl溶液中的电化学性能研究[J].功能材料,2008(08):1295-1297. |
| [7] | Wang Li;Chao Yuesheng .Corrosion behaviors of bulk a morphous Fe1Cot Cr15Mo14 C115 B6 Ye alloy in NaO H solu tion[J].Journal of Functional Materials,2010,41(10):1849-1852. |
| [8] | Song Mingzhao;Zhu Dachuan;Tu Mingjing .Study on thecorrosion behavior of Cu-Te-Li mult iplealloy in the 3.5 NaCI solution[J].Journal of Functional Materials,2005,36(02):209-213. |
| [9] | 姜同川.正交试验设计[M].济南:山东科学技术出版社,1985:1-19. |
| [10] | <正交试验设计法>编写组.正交试验设计法-多因素的试验方法[M].上海:上海科学技术出版社,1979:173184. |
| [11] | 北京大学数学系实验设计组.正交试验法[M].北京:科学普及出版社,1979:22. |
| [12] | 朱世东,魏建锋,周根数,尹志福,白真权.基于正交试验的P110腐蚀行为的研究[J].热处理技术与装备,2010(01):4-9. |
| [13] | 安洋,徐强,吴子涛,任志峰.模拟循环冷却水中几种离子对碳钢腐蚀的影响[J].电镀与精饰,2011(04):35-39. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%