Based on dislocation reaction theory and Avrami equation, a constitutive equation model was developed to describe dynamic recovery and dynamic recrystallization during hot deformation of T122 heat resistant steel, which have taken the effect of dynamic strain aging into account. Uniaxial hot compression test had been carried out over a wide range of strain rate (0.01 to 10 s-1 ) and temperature (900 to 1 200 ~C) with the help of Gleeble 3500. Obtained experimental data was applied to determine the material parameters in proposed constitutive equations of T122 steel, by using the non-linear least square regress optimization method. The calculated constitutive equations are quantita- tively in good agreement with experimentally measured curves and microstructure observation. It shows that propose constitutive equation T122 steel is able to be used to predict flow stress of T122 steel during hot deformation in aus- tenite temperature scope.
参考文献
| [1] | Voce E .The Relationship Between Stress and Strain for Homo-geneous Deformation[J].Journal of the Institute of Metals,1948,74:537. |
| [2] | Misaka Y;Yoshimoto T .Formularization of Mean Resistance to Deformation of Plain Carbon Steels at Elevated Temperature[J].Journal of the Japan Society for Technology of Plasticity,1968,8:414. |
| [3] | Johnson G R;Cook W H.A Constitutive ModeI and Data for Metals Subjected to Large Strains,High Strain Rates and High Temperatures[A].Hague:[s.n.],1983:541. |
| [4] | Sah J P;Richardson G J;Sellars C M .Recrystallization During Hot Deformation of Nickel[J].Journal of the Australian Institute of Metals,1969,44:292. |
| [5] | Bergstrom Y .A Dislocation Model for the Stress-Strain Be- haviour of Polycrystalline [Alpha']-Fe With Special Emphasis on the Variation of the Densities of Mobile and Immobile Dislo- cations[J].Materials Science and Engineering,1970,4A:193. |
| [6] | Estrin Y;Mecking H .A Unified Phenomenological Description of Work Hardening and Creep Based on One-Parameter Models[J].Acta Metallurgica,1984,32:57. |
| [7] | Zerilli F J;Armstrong R W .Dislocation-Mechanics Based Con- stitutive Relations for Material Dynamics Calculations[J].Journal of Applied Physics,1987,61:1816. |
| [8] | Laasraoui Am Jonas J J .Prediction ot Steel Flow Stresses at High Temperatures and Strain Rates[J].Metallurgical and Materials Transactions,1991,22A:1545. |
| [9] | Cabrera J M;Omar A AL;Jonas J J et al.Modeling the Flow Behavior of a Medium Carbon Microalloyed Steel Under HotWorking Conditions[J].Metallurgical and Materials Transactions,1997,28A:2233. |
| [10] | CHEN Liang-sheng;XU You-rong;WANG De-ying et al.Hot Deformability and Flow Stress Model for Austenitic Stainless Steel Containing High Molybdenum (in Chinese)[J].Iron & Steel,2000,35(05):55. |
| [11] | J.J. VILELA;R. BARBOSA .Prediction of Stress-Strain Curves of Hot Deformed If Austenite[J].ISIJ International,2002(3):319-321. |
| [12] | Svyetlichnyy D S .The Coupled Model of a Microstructure Evolution and a Flow Stress Based on the Dislocation Theory[J].ISIJInter,2005,45:1187. |
| [13] | Hernadez C A;Medina S F;Ruiz J .Modelling Austenite Flow Curves in Low Alloy and Mieroalloyed Steels[J].Acta Materialia,1996,44:155. |
| [14] | Niu J T.Physics Simulation Technology of Material and Heat Processing (in Chinese)[M].Beijing:National Defense Industry Publish- ing Company,1999 |
| [15] | Davenport S B;Silk N J;Sellars C M .Development of Con- stitutive Equations for Modelling of Hot Rolling[J].Materials Science and Technology,2000,16:539. |
| [16] | Zerilli F J .Dislocation Mechanics-Based Constitutive Equa tions[J].Metallurgical and Materials Transactions,2004,35A:2547. |
| [17] | Berming G;Bartels A;Mecking H et al.[J].Materials Science and Engineering,1997,230A:904. |
| [18] | B. KOWALSKI;C. M. SELLARS .Development of a Computer Code for the Interpretation of Results of Hot Plane Strain Compression Tests[J].ISIJ International,2000(12):1230-1236. |
| [19] | McQueen HJ.;Ryan ND. .Constitutive analysis in hot working[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2002(1-2 Special Issue SI):43-63. |
| [20] | CAO Jin-rong;LIU Zheng-dong;CHENG Shi-chang et al.Influence of Strain Rate and Deformation Temperature on Flow Stress and Critical Dynamic Recrystallization of Heat Resistant Steel T122 (in Chinese)[J].Acta Metallurgica Sinica,2007,43:35. |
| [21] | McQueen H J .Elevated Temperature Deformation at Forming Rates of 10-z to 10z s 1[J].Metallurgical and Materials Transactions,2002,33A:345. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%