Warm deformation tests were performed using a kind of tubby heater. The microstructures and mechanical properties of an Fe-C-Mn-Si multiphase steel resulting from different warm deformation temperatures were investiga- ted by using LOM (light optical microscopy), SEM and XRD. The results indicated that the microstructure contai- ning polygonal ferrite, granular bainite and a significant amount of the stable retained austenite can be obtained through hot deformation and subsequent austempering. Warm deformation temperature affects the mechanical prop- erties of the hot rolled TRIP steels. Ultimate tensile strength balance reached maximum (881 MPa) when the speci- men was deformed at 250 ~C, and the total elongation and strength-ductility reached maximum (38% and 28 614 MPa ~ ~, respectively) at deforming temperature of 100 ~C. Martensite could nucleate when austenite was deformed above M~, because mechanical driving force compensates the decrease of chemical driving force. The TRIP effect occurs in the Fe-C-Mn-Si multiphase steel at deforming temperature ranging from 15 to 350 ~C. The results of the effects of warm deformation on the mechanical properties of the Fe-C-Mn-Si multiphase steel can provide theoretical basis for the ap- plications and the warm working of the hot rolled TRIP sheet steels in industrial manufacturing.
参考文献
[1] | E. Jimenez-Melero;N.H. van Dijk;L. Zhao .The effect of aluminium and phosphorus on the stability of individual austenite grains in TRIP steels[J].Acta materialia,2009(2):533-543. |
[2] | H. Takechi .Transformation Hardening of Steel Sheet for Automotive Applications[J].JOM,2008(12):22-26. |
[3] | Zhao L;Wibowo M K;Hermans M J M et al.Retention of Austenite in the Welded Microstructure of a 0.16C-1.6Mn- 1.5Si(wt)TRIP Steel[J].Journal of Materials Processing Technology,2009,209(12/13):5286. |
[4] | Yonh Feng GONG;Han Soo KIM;Bruno Charles DE COOMAN .Formation of Surface and Subsurface Oxides during Ferritic, Intercritical and Austenitic Annealing of CMnSi TRIP Steel[J].ISIJ International,2008(12):1745-1751. |
[5] | Gong Y F;Kim H S;De C B C et al.Internal Oxidation Dur- ing Intereritical Annealing o{ CMnSi TRIP Steel[J].ISIJ In- ternational,2009,49(04):557. |
[6] | K. SUGIMOTO;M. KOBAYASHI;A. NAGASAKA .Warm stretch-formability of TRIP-aided dual-phase sheet steels[J].ISIJ International,1995(11):1407-1414. |
[7] | Koh-ichi SUGIMOTO .Effects of Retained Austenite Parameters on Warm Stretch-flangeability in TRIP-aided Dual-phase Sheet Steels[J].ISIJ International,1999(1):56-63. |
[8] | Bumera A;Jim6nezb J A;Blecka W .Effect of Temperature and Strain Rate on Strain Hardening and Deformation Mecha- nisms of High Manganese Austenitie Steels[J].International Journal of Materials Research,2010,101(06):705. |
[9] | Sugimoto K;Song S M;Sakaguchi J et al.Warm Formability of Ultra High-Strength Low Alloy TRIP-Aided Sheet Steels With Bainitie Ferrite Matrix[J].Tetsu To Hagane-Journal of the Iron & Steel Institute of Japan,2005,91(02):278. |
[10] | Tamura I .Deformation-Induced Martensitic Transformationand Transformation-Induced Plasticity Steels[J].Metal Sci- ence,1982,16:245. |
[11] | Machlin E;Cohen M .Burst Phenomenon in the Martensitic Transformation[J].Transactions AIME,1951,191:746. |
[12] | LI Zhuang,WU Di.Effects of Holding Temperature for Austempering on Mechanical Properties of Si-Mn TRIP Steel[J].钢铁研究学报(英文版),2004(06):40-44. |
[13] | Li Z;Wu D;Hu R .Effects of Silicon and Manganese on the Mechanical Properties of Low Plain Carbon TRIP Steel[J].Journal of Iron and Steel Research International,2005,12(03):51. |
[14] | Wu D;Li Z .Effect of Thermomechanical Controlled Process ing on the Mierostructure and Mechanical Properties of Fe-C- Mn-Si Multiphase Steels[J].ISIJ International,2006,46(07):1059. |
[15] | Meyer M D;Vanderschueren D;Cooman B C D .The Influ- ence of the Substitution of Si by AI on the Properties of Cold Roiled C-Mn-Si TRIP Steels[J].ISIJ International,1999,39(08):813. |
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