铸态超级双相不锈钢S32750热变形行为及组织演变

特殊钢 ›› 2019, Vol. 40 ›› Issue (5): 12-16.

所属专题：双相不锈钢

铸态超级双相不锈钢S32750热变形行为及组织演变

武敏^1,2，李建春²，李国平²，卫英慧¹

1太原理工大学材料科学与工程学院，太原030024；
2山西太钢不锈钢股份有限公司技术中心，太原030003

收稿日期:2019-04-11 出版日期:2019-10-01 发布日期:2022-05-12
作者简介:武敏(1986-)，女，硕士(2011年),工程师2008年武汉大学(本科)毕业，金属材料的组织及性能研究。
基金资助:
国家重点研发计划(2016YFB0300201)，
山西省科技重大专项(20181101015)

Hot Deformation and Microstructure Evolution of As-Cast Super Duplex Stainless Steel S32750

Wu Min^1,2, Li Jianchun², Li Guoping² ，Wei Yinghui¹

1 College of Materials Science and Engineering, Taiyuan University of Technology, Taiyuan 030024 ；
2 Technical Center,Shanxi Taigang Stainless Steel Co Ltd,Taiyuan 030003)

Received:2019-04-11 Published:2019-10-01 Online:2022-05-12

摘要/Abstract

摘要： 通过Gleeble-3800热压缩实验研究了铸态超级双相不锈钢S32750(/%:0. 017C,0.53Si,0.93Mn,0.023P,0.001S,25.58Cr,7.00Ni,4.03Mo,0.28N)在变形温度为950～1200℃、应变速率为0.1～25/s、真应变为1条件下的热变形行为与组织演变规律。结果表明,超级双相不锈钢S32750热变形行为受变形温度和应变速率的影响明显。在950～1050℃、0.1/s变形时,流变曲线表现出"类屈服平台"特征;当变形温度为1100～1200或应变速率为10/s、25/s时,流变曲线为典型的动态再结晶特征。对其微观组织进行观察发现,铁素体在各变形条件下均发生动态再结晶;奥氏体在950℃和1200℃时基本不受应变速率影响,前者发生动态回复,后者发生动态再结晶。而在1050℃时,受应变速率影响较大:小应变速率下(0.1/s)下发生动态回复,大应变速率下(10/s)发生动态再结晶。

Abstract: The hot deformation and microstructure evolution of as-cast S32750 super duplex stainless steel (/% : 0.017C,0.53Si,0.93Mn,0. 023P,0. 001S,25. 58Cr,7. 00Ni,4. 03Mo,0. 28N) are investigated at different temperatures (950 〜1200℃ ),strain rates (0.1 ~ 25 /s) and strain (1) by Gleeble-3800 thermo-mechanical simulator. The results shows that the hot deformation behavior of S32750 was considerably affected by temperature and strain rate. The flow curves exhibit particularly yield-point-elongation-like effect at temperatures of 950 ~ 1050℃ and strain rate of 0.1/s, which is characterized by a non-strengthening plateau during the initial stages of plastic deformation. The flow curves show the dynamic recrystallization characteristic at temperatures of 1100 ~ 1200 °C or at strain rates 10 /s、25 /s. It is found that dynamic recrystallization occurs in ferrite at different deformation conditions. Whereas austenite undergoes dynamic recovery at 950℃ and dynamic recrystallization at 1200 °C , and the strain rate has a minimal effect on the microstructure evolution of austenite；when the deformation temperature is 1050℃,the strain rate plays an important role in the softening process,the austenite undergoes dynamic recovery at strain rate of 0. 1/s and dynamic recrystallization at 10 /s.

武敏, 李建春, 李国平, 卫英慧. 铸态超级双相不锈钢S32750热变形行为及组织演变[J]. 特殊钢, 2019, 40(5): 12-16.

Wu Min, Li Jianchun, Li Guoping , Wei Yinghui. Hot Deformation and Microstructure Evolution of As-Cast Super Duplex Stainless Steel S32750 [J]. Special Steel, 2019, 40(5): 12-16.

参考文献

[1]Tan H,Jiang Y M,Deng B. Effect of Annealing Temperature on the Pitting Corrosion Resistance of Super duplex Stainless Steel UNS S32750 [J]. Materials Characterization,2009,60(9) ： 1049-1055.
[2]Gurrappa I,Reddy C V. Characterization of Newly Developed Structural DMR-1700 Steel and Comparison with Different Steels for Chemical Applications[J]. Journal of Materials Processing Technology ,2007,182 (1):195-204.
[3]Lin G,Zhang Z X,Song H W,et al. Investigation of the Hot Plasticity of Duplex Stainless Steel [J]. Journal of Iron and Steel Research International ,2008,15(6) ：83-86.
[4]Garzon C M,Tschiptschin A P. EBSD Texture Analysis of a High Temperature Gas Nitrided Duplex Stainless Steel[J]. Materials Science and Engineering A ,2006,441 (1-2) ：230-236.
[5]Gutierrez I. Duplex Stainless Steels[M]. Inc UK and USA,ISTE Ltd and John Weily & Sone,2009.
[6]童俊,傅万堂，林刚，等.00Cr25Ni7Mo4N超级双相不锈钢的高温变形行为[J].钢铁研究学报,2007,19(10) ：4045.
[7]Chen L,Ma X C,Liu X,et al. Processing Map for Hot Working Characteristics of a Wrought 2205 Duplex Stainless Steel [J]. Materials and Design,2011,16( 1-2) ： 1292-1299.
[8]Fan G W,Liu J,Han P D,et al. Hot Ductility and Microstructure in Casted 2205 Duplex Stainless SteelsfJ]. Materials Science and Engineering A,2009,515(3) ：108415.
[9]Momeni A, Dehghani K, Zhang X X. Mechanical and Microstructural Analysis of 2205 Duplex Stainless Steel Under Hot Working Condition [J]. Journal of Materials Science ,2012,47,2966-2974.
[10]Han Y,Zou D N,Chen Z Y,et al. Investigation on Hot Deformation Behavior of 00Ci23Ni4N Duplex Stainless Steel Under Medium-high Strain Ratesf [J]. Materials Characterization,2011,62(2) ： 198-203.
[11]Duprez L,De Cooman B C,Akdut N. Flow Stress and Ductility of Duplex Stainless Steel During High-temperature Torsion Defbnnation [J]. Metallurgical and Materials Transactions A,2002,33(7) ：1931- 1936.
[12]Dehghan-Manshadi A,Bamett M R,Hodgson P D. Microstructural Evolution During hot Deformation of Duplex Stainless Steel[J]. Materials Science and Technology ,2007,23 (12) ,1478-1484.
[13]Li L F,Yang W Y,Sun Z Q. Dynamic Recrystallhation of Ferrite in a Low-Carbon Steel [J]. Metallurgical and Materials Transactions A, 2006,37(3)： 609-619.
[14]Guo Q M, Li D F,Peng H J,et al. Nucleation Mechanisms of Dynamic Recrystallization in Inconel 625 Superalloy Deformed with Different Strain Rates：[J]. Rare Metals,2012,31 (3): 215-221.
[15]Eghbali B, Abdollah-Zadeh A, Beladi H, et al. Characterization on Ferrite Microstructure Evolution During Large Strain Warm Torsion Testing of Plain Ix>w Carbon Steel [J]. Materials Science and Engineering A,2006,435436(5) ：4994)4.
[16]Cizek P, Wynne B P. A Mechanism of Ferrite Softening in a Duplex Stainless Steel Deformed in hot Torsion [J]. Materials Science and Engmeering A, 1997,230( 1-2) ：88-93.

铸态超级双相不锈钢S32750热变形行为及组织演变

Hot Deformation and Microstructure Evolution of As-Cast Super Duplex Stainless Steel S32750

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