采用电化学充氢、热脱氢分析仪(TDS)及慢应变速率试验(SSRT)研究了预应变对一种Si-Mn系中碳TRIP钢的氢吸附及延迟断裂行为的影响。结果表明,具有多相组织的等温淬火(AT)试样在拉伸变形过程中,残留奥氏体在应变诱导下转变为马氏体,其转变量随着预应变量的增大而增加。具有回火马氏体组织的淬火回火(QT)试样和AT试样在充氢后的氢逸出曲线上均具有一个逸出峰,其峰值温度分别约为90℃和130℃,该峰值温度随预应变量的增大而升高。随着预应变量的增加,充氢QT样和AT样的氢含量逐渐增加,这导致氢致塑性损失增加,其中AT样的氢致塑性损失要明显高于QT样。这表明,预变形AT样的延迟断裂敏感性较高。
Hydrogen absorption and delayed fracture behavior of a medium-carbon Si-Mn type TRIP steel was studied by electrochemical charging, thermal desorption spectrometry(TDS) analysis and slow strain rate testing (SSRT). The results show that there is a nearly linear relationship between the amount of strain-induced transformation and tensile prestraining for the austempered (AT) specimen having multiphase microstrueture. There is only one hydrogen desorption peak for both quenched and tempered (QT) specimen and AT specimen, with their peak temperatures around 90 ℃ and around 130℃ , respectively. The peak temperature tends to increase with increasing prestraining. The amount of charged hydrogen content increases with increasing prestraining and therefore hydrogen-induced ductility loss increases for both AT and QT specimens. However, ductility loss of AT specimen is more significant than that of QT specimen, that is to say, prestrained AT specimen has higher delayed fracture sensitivity than that of QT specimen.
参考文献
| [1] | S. Zaefferer;J. Ohlert;W. Bleck .A study of microstructure, transformation mechanisms and correlation between microstructure and mechanical properties of a low alloyed TRIP steel[J].Acta materialia,2004(9):2765-2778. |
| [2] | M.R. Berrahmoune;S. Berveiller;K. Inal .Analysis of the martensitic transformation at various scales in TRIP steel[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2004(1/2):304-307. |
| [3] | 景财年,王作成,韩福涛.相变诱发塑性的影响因素研究进展[J].金属热处理,2005(02):26-31. |
| [4] | 李壮,吴迪.热处理工艺对低碳硅锰TRIP钢力学性能的影响[J].材料热处理学报,2004(04):23-27. |
| [5] | Basuki A;Aernoudt E .Effect of deformation in the intercritical area on the grain refinement of retained austenite of 0.4C TRIP steel[J].ScriptMaterialia,1999,40(09):1003-1008. |
| [6] | Sugimoto K;Tsunezawa M;Hojo T;Ikeda S .Ductility of 0.1-0.6C-1.5Si-1.5Mn ultra high-strength TRIP-aided sheet steels with bainitic ferrite matrix[J].ISIJ International,2004(9):1608-1614. |
| [7] | 班丽丽,惠卫军,雍岐龙,翁宇庆,董瀚.热处理工艺对中碳TRIP钢微观组织及力学性能的影响[J].材料热处理学报,2008(05):53-58. |
| [8] | Tomohiko HOJO;Koh-ichi SUGIMOTO;Youichi MUKAI .Effects of Aluminum on Delayed Fracture Properties of Ultra Strength Low Alloy TRIP-aided Steels[J].ISIJ International,2008(6):824-829. |
| [9] | 北筱智彦;宋星武;杉本公一 .超高强度低合金丁RIP钢の水素脆性[J].鈇と钢,2004,90(03):177-182. |
| [10] | 北筱智彦;杉本公一;向井阳一 .超高强度低合金7RIP型ペィニチィツクフェラィト钢の水素脆化特性[J].鈇と钢,2006,92(02):83-89. |
| [11] | Sugimoto K;Iida T;Sakaguchi J;Kashima T .Retained austenite characteristics and tensile properties in a TRIP type bainitic sheet[J].ISIJ Intemationa,2000,40(09):902-908. |
| [12] | Sakuma Y;Matsumura O;Akisue O .Influence of C content and annealing temperature on microstructure and mechanical properties of 400 ~C transformed steel containing retained austenite[J].ISIJ International,1991,31(11):1348-1353. |
| [13] | 褚武扬.氢损伤和滞后断裂[M].北京:冶金工业出版社,1988 |
| [14] | 铃木信一;石井伸幸;土田登 .高张力钢の披散性水素の举动に及はす塑性歪の影响[J].鈇上钢,1994,80(11):855-859. |
| [15] | 王昭洪;吴忍畊;崔忠圻 .残留奥氏体对氢致断裂过程的影响[J].金属热处理学报,1990,11(02):48-53. |
| [16] | 山崎一正;水山弥一郎 .超高强度冷延钢板の迟九破坏特性及はす王寸残留才ステナィトと歪の影响[J].鉄匕纲,1997,83(11):754-759. |
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