·488 工程科学学报，第41卷，第4期 Ni-based superalloy (617B)at 700 C studied by electron micros- and Technology Beijing,2013 copy and atom probe tomography.Acta Mater,2012.60(4): (王珏.镍基合金管材组织可控的挤出性准则及应用[学位论 1731 文].北京：北京科技大学，2013) [Jiang H.Dong J X,Zhang M C.Manufacture process design of [8]Jiang H,Dong JX,Zhang M C,et al.Hot deformation character- Inconel 617B superheater tubes for ultra-supercritical power istics of Alloy 617B nickel-based superalloy:a study using pro- plants.Mater Res Innovations,2014,18(Suppl 4):S4-369 cessing map.J Alloys Compd,2015,647:338 4]Wang B S.Research on the Correlation of Hot Extrusion Process Inconel alloy 617 [/OL].Special Metals Corporation (2005-03- with Lubrication and Microstructure Control for 3 Alloy DDisserta- 05)[2019-03-27].http://www.specialmetals.com/assets/ tion].Beijing:University of Science and Technology Beijing, sme/documents/alloys/inconel/inconel-alloy617.pdf 2011 [10]Jiang H,Dong J X,Zhang MC,et al.Phenomenological model (王宝顺.G3合金热挤压工艺与润滑行为及组织控制的关系 for the effect of strain rate on recrystallization and grain growth ki- 研究[学位论文].北京：北京科技大学，2011) netics in the 617B alloy.J Alloys Compd,2018,735:1520 Yang L Deformation Characteristics for Alloy 69 with Microstruc- [11]Jiang H,Dong J X,Zhang M C,et al.A study on the effect of ture and Processing Control [Dissertation].Beijing:University of strain rate on the dynamic recrystallization mechanism of alloy Science and Technology Beijing,2012 617B.Metall Mater Trans A,2016,47(10):5071 (杨亮.690合金变形行为及组织与工艺控制研究[学位论 [12]Wang J,Dong J X,Zhang MC,et al.Numerical simulation for 文].北京：北京科技大学，2012) optimization of the extrusion process of GH4169 tubes.J Unir Sci Yan S C.High-temperature High-speed Hot Deformation Beharior Technol Beijing,2010,32(1):83 of Inconel625 Alloy and Optimization of High-Speed Extrusion (王珏，董建新，张麦仓，等.GH4169合金管材正挤压工艺 Process for Tube of This Alloy [Dissertation].Dalian:Dalian Uni- 优化的数值模拟.北京科技大学学报，2010,32(1)：83) versity of Techonology,2010 [13]Sun Y H.Ingestigation of Nickel Base G-3 Alloy Oil Pipe for Se- (闫士彩.Inconel625合金高温高速变形行为及其管材高速热 tere Sour Gas Field [Dissertation].Kunming:Kunming Univer- 挤压工艺优化[学位论文].大连：大连理工大学，2010) sity of Science and Technology,2008 Wang Microstructure Controlled Extrudability Criterion of Nickel- (苏玉华.高酸性气田用镍基耐蚀合金G-3油管的研究[学 base Alloy Tubes [Dissertation].Beijing:University of Science 位论文].昆明：昆明理工大学，2008)工程科学学报，第 41 卷，第 4 期 Ni-based superalloy ( 617B) at 700 ℃ studied by electron micros￾copy and atom probe tomography． Acta Mater，2012，60 ( 4 ) : 1731 ［3］ Jiang H，Dong J X，Zhang M C． Manufacture process design of Inconel 617B superheater tubes for ultra-supercritical power plants． Mater Ｒes Innovations，2014，18( Suppl 4) : S4-369 ［4］ Wang B S． Ｒesearch on the Correlation of Hot Extrusion Process with Lubrication and Microstructure Control for G3 Alloy［Disserta￾tion］． Beijing: University of Science and Technology Beijing， 2011 ( 王宝顺． G3 合金热挤压工艺与润滑行为及组织控制的关系 研究［学位论文］． 北京: 北京科技大学，2011) ［5］ Yang L． Deformation Characteristics for Alloy 690 with Microstruc￾ture and Processing Control ［Dissertation］． Beijing: University of Science and Technology Beijing，2012 ( 杨亮． 690 合金变形行为及组织与工艺控制研究［学位论 文］． 北京: 北京科技大学，2012) ［6］ Yan S C． High-temperature High-speed Hot Deformation Behavior of Inconel625 Alloy and Optimization of High-Speed Extrusion Process for Tube of This Alloy［Dissertation］． Dalian: Dalian Uni￾versity of Techonology，2010 ( 闫士彩． Inconel625 合金高温高速变形行为及其管材高速热 挤压工艺优化［学位论文］． 大连: 大连理工大学，2010) ［7］ Wang J． Microstructure Controlled Extrudability Criterion of Nickel￾base Alloy Tubes ［Dissertation］． Beijing: University of Science and Technology Beijing，2013 ( 王珏． 镍基合金管材组织可控的挤出性准则及应用［学位论 文］． 北京: 北京科技大学，2013) ［8］ Jiang H，Dong J X，Zhang M C，et al． Hot deformation character￾istics of Alloy 617B nickel-based superalloy: a study using pro￾cessing map． J Alloys Compd，2015，647: 338 ［9］ Inconel alloy 617 ［J/OL］． Special Metals Corporation ( 2005--03-- 05) ［2019--03--27］． http: / /www． specialmetals． com /assets/ smc / documents/alloys/inconel /inconel-alloy-617． pdf ［10］ Jiang H，Dong J X，Zhang M C，et al． Phenomenological model for the effect of strain rate on recrystallization and grain growth ki￾netics in the 617B alloy． J Alloys Compd，2018，735: 1520 ［11］ Jiang H，Dong J X，Zhang M C，et al． A study on the effect of strain rate on the dynamic recrystallization mechanism of alloy 617B． Metall Mater Trans A，2016，47( 10) : 5071 ［12］ Wang J，Dong J X，Zhang M C，et al． Numerical simulation for optimization of the extrusion process of GH4169 tubes． J Univ Sci Technol Beijing，2010，32( 1) : 83 ( 王珏，董建新，张麦仓，等． GH4169 合金管材正挤压工艺 优化的数值模拟． 北京科技大学学报，2010，32( 1) : 83) ［13］ Sun Y H． Investigation of Nickel Base G--3 Alloy Oil Pipe for Se￾vere Sour Gas Field ［Dissertation］． Kunming: Kunming Univer￾sity of Science and Technology，2008 ( 苏玉华． 高酸性气田用镍基耐蚀合金 G--3 油管的研究［学 位论文］． 昆明: 昆明理工大学，2008) · 884 ·