测试了4种不同硫含量(5×10-6,17×10-6,50×10-6,100×10-6)及不同显微组织管线钢的力学性能和抗H2S开裂性能.结果表明,高硫含量(100×10-6)会导致管线钢中Ⅱ型MnS夹杂物的形成,恶化冲击性能,而对拉伸性能和抗H2S开裂性能不产生明显影响.针状铁素体组织比(多边形铁索体+珠光体)组织具有更好的强韧性,但两种组织的抗H2S开裂性能相反,分析认为这与针状铁素体中大量可动位错对氢的携带和聚集有关.
参考文献
| [1] | Gao H L.The Pipeline Steel:Mierostructure,Mechanical Property and Welding Ability.Xi'an:Shaanxi Science and Technology Press,1995:4 (高惠临编著.管线钢--组织、性能、焊接行为.西安:陕西科学技术出版社,1995:4) |
| [2] | Zhao M C,Yang K,Shan Y Y.Mater Sci Eng,2002; A335:14 |
| [3] | Yoshie A,Fujioka M,Watanabe Y,Nishioka K,Morikawa H.ISIJ Int,1992; 32:395 |
| [4] | Bott I D S,Souza L F G D,Eixeira J C G,Rios P R.Metall Mater Trans,2005; 36A:443 |
| [5] | Hwang B,Kim Y G,Lee S,Kim N J,Yoo J Y.Metall Mater Trans,2005; 36A:371 |
| [6] | Domizzi G,Anteri G,Garcia J O.Corros Sci,2001; 43:325 |
| [7] | Nakai Y,Kurahashi H,Emi T,Haida O.Trans ISIJ,1979; 19:401 |
| [8] | Ravi K,Ramaswamy V.Mater Sci Eng,1990; A129:87 |
| [9] | Pressouyer G M,Blondeau R,Primon G,Gadiou L.In:Interrante C G,Pressouyre G M eds,Current Solution to Hydrogen Problems in Steels,Metals Park,OH:ASM,1982:212 |
| [10] | NACE Standard TM0177-96,Method B-NACE Standard Bent-Beam Test,1996 |
| [11] | Zhao M C,Shan Y Y,Qu J B,Yang K,Gao S,Zheng L.Acta Metall Sin,2001; 37:179 (赵明纯,单以银,曲锦波,杨柯,高珊,郑磊.金属学报,2001;37:179) |
| [12] | Zhong Y,Wang Z J,Shan Y Y,Yang K.Chin J Mater Sci,2003; 17:304 (钟勇,王忠军,单以银,杨柯.材料研究学报,2003;17:304) |
| [13] | Muddle B C,Cizek P,Wynne B P,Davies C H.Proceedings from Materials Solution'97 on Accelerated Cooling/Direct Quenching of Steels,Indianapolis,Indiana:ASM International,1997:15 |
| [14] | Sharma U,Ivey D G.2000 International Pipeline Conference,Calgary,Canada:ASME,2000:193 |
| [15] | Brown A,Jones C L.Corrosion,1984; 40:330 |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%