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胡軍

(東北大學副教授、特聘研究員)

鎖定
胡軍,男,博士,東北大學軋製技術及連軋自動化國家重點實驗室副教授、特聘研究員。 [1] 
中文名
胡軍
畢業院校
東北大學
職    業
教師

胡軍人物經歷

胡軍受教育經歷

2011.9-2014.11 東北大學材料加工工程專業 (博士) [1] 

胡軍研究工作經歷

2015.4-2016.12 東北大學軋製技術及連軋自動化國家重點實驗室(講師)-引進人才系列 [1] 
2017.1-2022.12 東北大學軋製技術及連軋自動化國家重點實驗室(副教授)-特殊條件
2023.1-至今 東北大學軋製技術及連軋自動化國家重點實驗室(特聘研究員)

胡軍榮譽

2012年教育部博士研究生學術新人獎 [1] 
2016年江蘇省雙創人才計劃
2016年遼寧省優秀博士學位論文
2017年鋼鐵共性協同創新中心青年新秀獎
2018年Materials Science and Engineering A期刊優秀審稿人
2021年榮程祥青科研創新獎
2022年Journal of Iron and Steel Research International期刊優秀青年編委

胡軍社會兼職

國家自然科學基金項目通訊評審人,冶金科學技術獎通訊評審人,雙一流高校碩博學位論文評審專家。《Materials Research Letters》青年編委,《International Journal of Minerals, Metallurgy and Materials》青年編委,《Acta Metallurgica Sinica (English Letters)》青年編委,《Journal of Iron and Steel Research International》青年編委,《精密成形工程》通訊編委,《Crystals》客座編輯。 [1] 
Materials Today、Acta Materialia、Additive Manufacturing、Scripta Materialia、Materials Science and Engineering A、Metallurgical and Materials Transaction A、Materials and Design、Materials Characterization、Journal of Alloys and Compounds、Journal of Materials Science、Journal of Materials Science Technology、Wear、Acta Metallurgica Sinica (English Letters)、金屬學報、稀有金屬材料與工程等30餘種SCI期刊審稿人。Elsevier經典專業書籍評閲專家。 [1] 

胡軍教學情況

胡軍承擔課程

(1) 金屬學及熱處理 [1] 
(2) 智能製造
(3) 納米技術
(4) 金屬成形過程的組織性能控制

胡軍研究生招生方向

(1) 高強塑積不鏽鋼、Q&P鋼、中錳鋼相變機理及應變配分機制研究 [1] 
(2) 超高強熱成形鋼組織性能、表面質量優化及短流程製備工藝開發
(3) 基於亞穩奧氏體與第二相析出耦合作用的高強鋼磨損行為研究
(4) 新一代微合金化超高強鋼組織性能調控及焊接性能評價與優化
(5)新型高温合金組織性能調控與開發、服役性能研究及失效行為分析

胡軍主要研究項目

主持國家自然科學基金面上項目、國家自然科學基金青年項目、遼寧省自然科學基金面上項目、企業合作項目等十餘項。作為技術執行人與技術骨幹參與國家科技部863計劃重大課題、十三五重點研發計劃課題。 [1] 

胡軍代表性成果

在國外著名材料冶金類雜誌Scripta Materialia、Materials Science and Engineering A、Metallurgical and Materials Transaction A、Materials and Design、Materials Characterization、Journal of Alloys and Compounds、Journal of Materials Science、Wear、Tribology International發表SCI收錄論文80餘篇,SCI論文被引2000餘次,h指數26,授權專利24項,參編著作兩部。 [1] 

胡軍專利情況

1.胡軍,杜林秀,吳紅豔,孫國勝,劉浩,翟劍晗,謝輝,高秀華,張程遠,一種高強韌的超低碳中錳鋼中厚板及其製備方法,20160928,中國,ZL201510241664.1. (授權) [1] 
2.胡軍,杜林秀,謝輝,孫國勝,劉浩,翟劍晗,高秀華,高彩茹,一種V-N微合金化Q550級別中厚鋼板及其製備方法,20170308,中國,ZL201510403905.8. (授權)
3.杜林秀,胡軍,劉浩,孫國勝,翟劍晗,謝輝,吳紅豔,高秀華,易紅亮,一種低碳中錳高強韌性特厚鋼板及其製備方法,20170510,中國,ZL201510353679.7. (授權)
4.孫國勝,胡軍,謝輝,吳紅豔,于帥,杜林秀,一種晶粒尺寸小於100nm的304奧氏體不鏽鋼的製備方法,20160824,中國,ZL201410753437.2. (授權)
5.杜林秀,王小鵬,孫國勝,謝輝,劉浩,胡軍,于帥,翁鐳,翟劍晗,藍慧芳,吳紅豔,一種高塑性700MPa級冷軋耐候雙相鋼及其製備方法,20150811,中國,ZL201510490691.2. (授權)
6.謝輝,胡軍,孫國勝,高秀華,吳紅豔,杜林秀,一種低碳熱軋超高強高韌鋼及其製備方法,20160824,中國,ZL201410684407.0. (授權)
7.謝輝,杜林秀,胡軍,孫國勝,宋娜,劉浩,高秀華,藍慧芳,一種1100MPa級熱軋超高強高韌鋼不預熱焊接方法,20170707,中國,ZL201510418359.5. (授權)
8.齊祥羽,杜林秀,胡軍,張彬,翁鐳,吳紅豔,一種改善690MPa級低C中Mn高強韌中厚板焊接接頭低温衝擊韌性的焊後熱處理方法,20180327,中國,ZL201710155706.9. (授權)
9.張大偉,杜林秀,肖寶亮,高彩茹,胡軍,一種商用汽車輕量化無內胎車輪輪輞用鋼及其製備方法,20160824,中國,ZL201410513566.4. (授權)
10.齊祥羽,胡軍,張彬,翁鐳,高秀華,杜林秀,V-N微合金化Q550D中厚板焊前不預熱焊後不熱處理的焊接方法,20180803,中國,ZL201610696863.6(授權)
11.杜林秀,劉悦,宋娜,謝輝,胡軍,張彬,1200MPa級硅錳鉻系熱軋低碳鋼板及其製備方法,20180514,中國,ZL201810454941.0. (授權)
12.韓東序,杜林秀,胡軍,齊祥羽,張彬,吳紅豔,一種GCr15軸承鋼熱軋後在線快速球化退火方法,20180713,中國,ZL201710411463.0. (授權)
13.杜林秀,齊祥羽,胡軍,杜預,董營,翁鐳,吳紅豔,一種690MPa級低碳中錳高強度中厚板,20191206,中國,ZL201810535731.4. (授權)
14.吳紅豔,艾崢嶸,李美玲,孫國勝,胡軍,杜林秀,深冷軋製-快速退火製備納米晶奧氏體不鏽鋼板的方法,20190723,中國,ZL201610771756.5. (授權)
15.杜林秀,張彬,胡軍,高秀華,劉悦,劉玉傑,董營,一種低碳V-N-Nb微合金化熱軋帶鋼及其製備方法,20191203,中國,ZL201810384032.4. (授權)
16.杜林秀,劉悦,宋娜,謝輝,胡軍,張彬,屈服強度1000MPa級低屈強比超高強鋼及其製備方法,20190917,中國,ZL201810455107.3. (授權)
17.胡軍,張加美,吳紅豔,楊麗娟,孫國勝,杜林秀,屈強比可控的超低碳易焊接中錳汽車用鋼及其製備方法,20191220,中國,ZL201710840283.4. (授權)
18.杜林秀,胡軍,董營,高秀華,吳紅豔,劉悦,張彬,劉玉傑,一種海洋平台用Ti微合金化中錳鋼中厚板及其製備方法,20200519,中國,ZL201810243646.0. (授權)
19.杜林秀,胡軍,張彬,高彩茹,高秀華,劉悦,張世超,一種V-N-Cr微合金化的Q550級別熱軋帶鋼及其製備方法,20200207,中國,ZL201711478617.4 (授權)
20.徐偉,王魯寧,胡軍,楊得草,苗雋,柴志松,一種厚規格熱成形鋼的製備方法、熱軋鋼板及熱成形鋼,20220222,中國,ZL202111427659.1. (授權)
21.徐偉,劉軍,曹志眾,胡軍,王晨充,王魯寧,一種低鹼度免塗層熱成形鋼連鑄用保護渣,20220222,中國,ZL202111438770.0. (授權)
22.徐偉,王魯寧,胡軍,楊得草,苗雋,柴志松,一種1700MPa級高Cr-Si薄規格熱成形鋼的熱軋製備方法,20220301,中國,ZL202111428574.5. (授權)
23.徐偉,曹志眾,李明光,胡軍,王晨充,王飛,一種免塗層熱成形鋼的合金加入方法,20220422,中國,ZL202111438757.5. (授權)
24.徐偉,王魯寧,胡軍,王飛,陳宇,徐寧,一種高Cr-Si合金化熱成形鋼的罩式退火方法,20221129,中國,ZL202111438758.X. (授權)

胡軍專著情況

1.杜林秀,胡軍,董福濤,等. 鋼中微合金元素析出及組織性能控制,北京:冶金工業出版社,ISBN 978-7-5024-6709-8.2014. 10. [1] 
2.杜林秀,姚聖傑,胡軍,等. 超細晶/納米晶鋼組織控制理論與製備技術,北京:冶金工業出版社,ISBN 978-7-5024-7405-8. 2016. 12.

胡軍論文情況

1.Jun Hu*, LinXiu Du, JianJun Wang. Effect of cooling procedure on microstructures and mechanical properties of hot rolled Nb-Ti bainitic high strength steel. Materials Science and Engineering A, 2012, 554: 79-85. (SCI) [1] 
2.Jun Hu*, LinXiu Du, JianJun Wang. Effect of V on intragranular ferrite nucleation of high Ti bearing steel. Scripta Materialia, 2013, 68: 953-956. (SCI)
3.Jun Hu*, LinXiu Du, JianJun Wang, Hui Xie, CaiRu Gao, R.D.K.Misra. Structure-mechanical property relationship in low carbon microalloyed steel plate processed using controlled rolling and two-stage continuous cooling. Materials Science and Engineering A, 2013, 585: 197-204. (SCI)
4.Jun Hu*, LinXiu Du, JianJun Wang, CaiRu Gao. Effect of welding heat input on microstructures and toughness in simulated CGHAZ of V-N high strength steel. Materials Science and Engineering A, 2013, 577: 161-168. (SCI)
5.Jun Hu*, LinXiu Du, JianJun Wang, CaiRu Gao, TongZi Yang, AnYang Wang, R.D.K. Misra. Microstructures and mechanical properties of a new as-hot-rolled high-strength DP steel subjected to different cooling schedules. Metallurgical and Materials Transactions A, 2013, 44A: 4937-4947. (SCI)
6.FuTao Dong, LinXiu Du, XiangHua Liu, Jun Hu, Fei Xue. Effect of Ti(C,N) precipitation on texture evolution and fish-scale resistance of ultra-low carbon Ti-bearing enamel steel. Journal of Iron and Steel Research, 2013, 20: 39-45. (SCI)
7.Jun Hu*, LinXiu Du, JianJun Wang, Hui Xie, CaiRu Gao, R.D.K. Misra. High toughness in the intercritically reheated coarse-grained (ICRCG) heat-affected zone (HAZ) of low carbon microalloyed steel. Materials Science and Engineering A, 2014, 590: 323-328. (SCI)
8.Jun Hu*, LinXiu Du, Hui Xie, XiuHua Gao, R.D.K. Misra. Microstructure and mechanical properties of TMCP heavy plate microalloyed steel. Materials Science and Engineering A, 2014, 607: 122-131. (SCI)
9.Jun Hu*, LinXiu Du, Hui Xie, Peng Yu, R.D.K. Misra. A nanograined/ultrafine-grained low-carbon microalloyed steel processed by warm rolling. Materials Science and Engineering A, 2014, 605: 186-191. (SCI)
10.Jun Hu*, LinXiu Du, JianJun Wang, QingYi Sun. Cooling process and mechanical properties design of hot-rolled low carbon high strength microalloyed steel for automotive wheel usage. Materials and Design, 2014, 53: 332-337. (SCI)
11.Jun Hu*, LinXiu Du, Hui Xie, FuTao Dong, R.D.K. Misra. Effect of weld peak temperature on the microstructure, hardness, and transformation kinetics of simulated heat affected zone of hot rolled ultra-low carbon high strength Ti-Mo ferritic steel. Materials and Design, 2014, 60: 302-309. (SCI)
12.LinXiu Du, ShengJie Yao, Jun Hu, HuiFang Lan, Hui Xie, GuoDong Wang. Fabrication and microstructural control of nano-structured bulk steels, a review. Acta Metallurgica Sinica (English Letters), 2014, 27(3): 508-520. (SCI)
13.Hui Xie, LinXiu Du, Jun Hu, R.D.K. Misra. Microstructure and mechanical properties of a novel 1000 MPa grade TMCP low carbon microalloyed steel with combination of high strength and excellent toughness. Materials Science and Engineering A, 2014, 612: 123-130. (SCI)
14.Jun Hu, LinXiu Du, YaNa Ma, GuoSheng Sun, Hui Xie, R.D.K. Misra. Effect of microalloying with molybdenum and boron on the microstructure and mechanical properties of ultra-low-C Ti bearing steel. Materials Science and Engineering A, 2015, 640: 259-266. (SCI)
15.Jun Hu*, LinXiu Du, H. Liu, G.S. Sun, H. Xie, H.L. Yi, R.D.K. Misra. Structure-mechanical property relationship in a low-C medium-Mn ultrahigh strength heavy plate steel with austenite-martensite submicro-laminate structure. Materials Science and Engineering A, 2015,647: 144-151. (SCI)
16.Jun Hu*, LinXiu Du, GuoSheng Sun, Hui Xie, R.D.K. Misra. Low temperature superplasticity and thermal stability of a nanostructured low-carbon microalloyed steel. Scientific Reports, 2015, 18656. (SCI)
17.Jun Hu*, LinXiu Du, GuoSheng Sun, Hui Xie, R.D.K. Misra. The determining role of reversed austenite in enhancing toughness of a novel ultra-low carbon medium manganese high strength steel. Scripta Materialia, 2015, 104: 87-90. (SCI)
18.Hui Xie, LinXiu Du, Jun Hu, GuoSheng Sun, HongYan Wu, R.D.K. Misra. Effect of thermo-mechanical cycling on the microstructure and toughness in the weld CGHAZ of a novel high strength low carbon steel. Materials Science and Engineering A, 2015, 639: 482-488. (SCI)
19.GuoSheng Sun, LinXiu Du, Jun Hu, Hui Xie, HongYan Wu, R.D.K. Misra. Ultrahigh strength nano ultrafine-grained 304 stainless steel through three-stage cold rolling and annealing treatment. Materials Characterization, 2015, 110: 228-235. (SCI)
20.Jun Hu*, LinXiu Du, M. Zang, S.J. Yin, Y.G. Wang, X.Y. Qi, X.H. Gao,R.D.K. Misra. On the determining role of acicular ferrite in V-N microalloyed steel in increasing strength-toughness combination. Materials Characterization, 2016, 118:446-453. (SCI)
21.R.D.K. Misra, J. Hu, I.V.S. Yashwanth, V.S.A. Challa, L.X. Du, G.S. Sun, Hui Xie. Phase reverted transformation-induced nanograined microalloyed steel:Low temperature superplasticity and fracture. Materials Science & Engineering A, 2016, 668: 105-111. (SCI)
22.闞志, 杜林秀, 胡軍. GH4720Li合金熱變形行為和相變.稀有金屬材料與工程, 2016, 38(1): 46-50. (SCI)
23.GuanQiao Su, XiuHua Gao, LinXiu Du, DaZheng Zhang, Jun Hu, ZhenGuang Liu. Influence of Mn on the corrosion behaviour of medium manganese steels in a simulated seawater environment. International Journal of Electrochemical Science, 2016, 9447-9461. (SCI)
24.Hao Liu, LinXiu Du, Jun Hu*, HongYan Wu, XiuHua Gao, R.D.K. Misra. Interplay between reversed austenite and plastic deformation in a directly quenched and intercritically annealed 0.04C-5Mn low-Al steel. Journal of Alloys and Compounds, 2017, 695: 2072-2082. (SCI)
25.DaZheng Zhang, XiuHua Gao, GuanQiao Su, LinXiu Du, ZhenGuang Liu, Jun Hu. Corrosion behavior of low-C medium-Mn steel in simulated marine immersion and splash zone environment. Journal of Materials Engineering and Performance, 2017, 26: 2599-2607. (SCI)
26.GuanQiao Su, XiuHua Gao, DaZheng Zhang, ChenShuo Cui, LinXiu Du, Chi Yu, Jun Hu, ZhenGuang Liu. Offset effect of chromium on the adverse impact of manganese in a low-C medium-Mn steel with reversed austenite in the neutral salt spray condition. Corrosion Science Section, 2017, 73: 1367-1380. (SCI)
27.GuoSheng Sun, LinXiu Du, Jun Hu, Hui Xie, R.D.K. Misra. Low temperature superplastic-like deformation and fracture behavior of nano ultrafine-grained metastable austenitic stainless steel. Materials and Design, 2017, 117: 223-231. (SCI)
28.XiangYu Qi, LinXiu Du, Jun Hu, R.D.K. Misra. Enhanced impact toughness of heat affected zone in gas shield arc weld joint of low-C medium-Mn high strength steel by post-weld heat treatment. Steel Research International, 2018, 89: 1-8. (SCI)
29.XiangYu Qi, LinXiu Du, Jun Hu, R.D.K. Misra. High-cycle fatigue behavior of low-C medium-Mn high strength steel with austenite-martensite submicron-sized lath-like structure. Materials Science and Engineering A, 2018, 718: 477-482. (SCI)
30.Jun Hu*, LinXiu Du, Wei Xu, JianHan Zhai, Ying Dong, YuJie Liu, R.D.K. Misra. Ensuring combination of strength, ductility and toughness in medium-manganese steel through optimization of nano-scale metastable austenite. Materials Characterization, 2018, 136:20-28. (SCI)
31.GuoSheng Sun, LinXiu Du, Jun Hu*, R.D.K. Misra. Microstructural evolution and recrystallization behavior of cold rolled austenitic stainless steel with dual phase microstructure during isothermal annealing. Materials Science and Engineering A, 2018, 709: 254-264. (SCI)
32.GuanQiao Su, XiuHua Gao, DaZheng Zhang, LinXiu Du, Chi Yu, Jun Hu, ZhenGuang Liu. Impact of reversed austenite on the impact toughness of the high-strength steel of low carbon medium manganese. Journal of metals, 2018, 70: 672-679. (SCI)
33.Shuai Yu, LinXiu Du, Jun Hu, R.D.K. Misra. Effect of hot rolling temperature on the microstructure and mechanical properties of ultra-low carbon medium manganese steel. Materials Science and Engineering A, 2018, 731: 149-155. (SCI)
34.GuanQiao Su, XiuHua Gao, Ting Yan, DaZheng Zhang, ChenShuo Cui, LinXiu Du, ZhenGuang Liu, Yan Tang, Jun Hu. Intercritical tempering enables nanoscale austenite/ε-martensite formation in low-C medium-Mn steel: A pathway to control mechanical properties. Materials Science and Engineering A, 2018, 736: 417-430. (SCI)
35.GuoSheng Sun, Jun Hu*, Bin Zhang, LinXiu Du. The significant role of heating rate on reverse transformation and coordinated straining behavior in a cold-rolled austenitic stainless steel. Materials Science and Engineering A, 2018, 732: 350-358. (SCI)
36.Jun Hu*, LinXiu Du, Bin Zhang, XiangYu Qi, XiuHua Gao, R.D.K. Misra. Structure-property relationships in heat-affected zone of gas-shielded arc-welded V-N microalloyed steel. Journal of Iron and Steel Research International, 2018, 25: 1244–1254. (SCI)
37.XiangYu Qi, LinXiu Du, Jun Hu*, R.D.K. Misra. Effect of austenite stability on toughness, ductility, and work-hardening of medium-Mn steel. Materials Science and Technology, 2019, 35: 2134-2142. (SCI)
38.Tong Wang, Jun Hu*, LinXiu Du, GuoSheng Sun, R.D.K. Misra. Strain rate and temperature dependence of low temperature superplastic deformation in a nanostructured microalloyed steel. Materials letters, 2019, 243: 165-168. (SCI)
39.Tong Wang, Jun Hu, R.D.K. Misra. Microstructure evolution and strain behavior of a medium Mn TRIP/TWIP steel for excellent combination of strength and ductility. Materials Science and Engineering A, 2019, 753: 99-108. (SCI)
40.Jun Hu*, JiaMei Zhang, GuoSheng Sun, LinXiu Du, Yue Liu, Ying Dong, R.D.K. Misra. High strength and ductility combination in nano-/ultrafine-grained medium-Mn steel by tuning the stability of reverted austenite involving intercritical annealing. Journal of Materials Science, 2019, 54: 6565-6578. (SCI)
41.GuoSheng Sun, LinXiu Du, Jun Hu, Bin Zhang, R.D.K. Misra. On the influence of deformation mechanism during cold and warm rolling on annealing behavior of a 304 stainless steel. Materials Science and Engineering A, 2019, 746: 341-355. (SCI)
42.Jun Hu*, LinXiu Du, Ying Dong, QingWang Meng, R.D.K. Misra. Effect of Ti variation on microstructure evolution and mechanical properties of low carbon medium Mn heavy plate steel. Materials Characterization, 2019, 152: 51-35. (SCI)
43.GuoSheng Sun, LinXiu Du, Jun Hu, Bin Zhang. Significant influence of rolling modes on martensitic transformation, microstructural evolution and texture development in a 304 stainless steel. Materials Characterization, 2020, 159: 110073. (SCI)
44.Jun Hu*, KangKang Liu, Li Ma, R.Devesh Kumar Misra, WeiNa Zhang, Han Chen Du, Wei Xu. Significant improvement in strength and toughness of nanoscale precipitate-strengthened steel by direct quenching and tempering process. Steel Research International, 2020, 2000331. (SCI)
45.Jun Hu*. Low-density nanostructured bainitic steel with fast transformation rate and high impact-toughness. Materials Letters, 2020, 261: 127105. (SCI)
46.Li Ma, Tao Jia, Geng Li, Jun Hu, Jose A. Jimenez, Xiuhua Gao. Mechanical properties enhancement of a novel medium Mn-TRIP/TWIP assisted steel by dispersion of M2B-type borides particles. Materials Science and Engineering A, 2020, 784: 139333. (SCI)
47.JinLiang Wang, MingHao Huang, Jun Hu, ChenChong Wang, Wei Xu. EBSD investigation of the crystallographic features of deformation-induced martensite in stainless steel. Journal of Materials Science and Technology, 2020, 69: 148-155. (SCI)
48.王金亮, 王晨充, 黃明浩, 胡軍, 徐偉. 低應變預變形對變温馬氏體相變行為的影響規律及作用機制. 金屬學報, 2021, 57(5): 575-585. (SCI)
49.Shan Chen, Jun Hu*, Lingyu Shan, Chenchong Wang, Xianming Zhao, Wei Xu. Characteristics of bainitic transformation and its effects on the mechanical properties in quenching and partitioning steels. Materials Science and Engineering A, 2021, 803: 140706. (SCI)
50.L.Y. Kan, Q.B. Ye, Q.H. Wang, Y. Tian, Z.D. Wang, Y.M. Wang, J. Hu. Refinement of Cu-M2C precipitates and improvement of strength and toughness by Ti microalloying in a Cu-bearing steel. Materials Science and Engineering A, 2021, 802: 140678. (SCI)
51.TianYu Zhang, Jun Hu, ChenChong Wang, Yu Wang, WeiNa Zhang, HongShuang Di, Wei Xu. Effects of deep cryogenic treatment on the microstructure and mechanical properties of an ultrahigh-strength TRIP-aided bainitic steel. Materials Characterization, 2021: 111247. (SCI)
52.XinCheng Yan, Jun Hu, Hao Yu, ChenChong Wang, Wei Xu. Unraveling the significant role of retained austenite on the dry sliding wear behavior of medium manganese steel. Wear, 2021: 203745. (SCI)
53.XiaoLu Wei, ZhiSong Chai, Qi Lu, Jun Hu, ZhongYi Liu, QingQuan Lai, JianFeng Wang, Wei Xu. Cr-alloyed novel press-hardening steel with superior combination of strength and ductility. Materials Science and Engineering: A, 2021: 141461. (SCI)
54.ZhiGang Jia, Jun Hu, Ning Xu, Chun Liu, Ling Yu Wang, ChenChong Wang, WeiHua Sun, Wei Xu. Revealing the Effect of Microstructural Inheritance in 1.5 GPa Hot-Rolled Ultrahigh Strength Q&P Steels. Metallurgical and Materials Transactions A, 2021, 52(7): 3140-51.3140-3151. (SCI)
55.Z Cai, D Zhang, L Ma, H Ding, Y Feng, J Hu, R Misra. Competing deformation mechanisms in an austenite-ferrite medium-Mn steel at different strain rates. Materials Science and Engineering: A, 2021, 818: 141357. (SCI)
56.Tong Wang, YongZheng Chen, Bin Ouyang, Xiong Zhou, Jun Hu, QiChi Le. Artificial neural network modified constitutive descriptions for hot deformation and kinetic models for dynamic recrystallization of novel AZE311 and AZX311 alloys. Materials Science and Engineering: A, 2021, 816: 141259. (SCI)
57.ZhiSong Chai, Jun Hu, ChenChong Wang, LingYu Wang, WeiHua Sun, Sybrand van der Zwaag, Wei Xu. Effect of Nb on Microstructural Evolution and Mechanical Properties of Hot-Rolled Quenching and Partitioning Steels Containing Bainite. steel research international, 2021, 92(12): 2100247. (SCI)
58.XinCheng Yan, Jun Hu*, LingYu Wang, ZhiSong Chai, WeiHua Sun, Wei Xu. The coupled effect of thermal and mechanical stabilities of austenite on the wear resistance in a 0.2C-5Mn-1.6Si steel down to cryogenic temperatures. Wear, 2021: 204116. (SCI)
59.ZhiQiang Wu, Md Nzmul Hasan, HongGang Zhou, Jun Hu, LongFei Liu, LiWei Lu, XiangHai An. Enhanced high-temperature strength of a low-density dispersion-strengthened Fe-Mn-Al-C steel. Advanced Engineering Materials, 2021: 2101192. (SCI)
60.Cheng Zhou, QiBin Ye, Jun Hu*, Tan Zhao, XiuHua Gao, ZhaoDong Wang. Ultra-high-strength multi-alloyed steel with enhanced cryogenic toughness using thermally stable retained austenite. Materials Science and Engineering: A, 2022: 142356. (SCI)
61.HuiYun Zhang, LiuWei Zheng, Tao Wang, WenJie Lv, QuanXin Shi, JinYao Ma, Yi Luo, Wei Liang, Jun Hu*, R.D.K. Misra. Interrelationship between hydrogen and α′-martensite of SUS 304 austenitic stainless steel revealed by tensile tests. Materials Science and Engineering: A, 2022, 831: 142169. (SCI)
62.Y Yang, J Hu, X Liu, W Xu, B Li, G Ling, X Pang, Y Tian. Post treatment of an additively manufactured composite consisting of 304L stainless steel and CoCrFeMnNi high-entropy alloy. Materials Science and Engineering: A, 2022, 831: 142104. (SCI)
63.QiBin Ye, Cheng Zhou, Jun Hu, XiaoLan Gong, Yong Tian, XiuHua Gao, ZhaoDong Wang. Role of nanoscale precipitates and metastable austenite in determining the strength and toughness of high-strength Nb bearing steel. Journal of Iron and Steel Research International, 2022, 29(10): 1646-1658. (SCI)
64.HuiYun Zhang, Jun Hu, XianMing Meng, Ying Sun, Tao Wang, WenJie Lv, QuanXin Shi, JinYao Ma, DiaoYu Zhou, Wei Liang, LiuWei Zheng. Effect of deformation microstructures on hydrogen embrittlement sensitivity and failure mechanism of 304 austenitic stainless steel: The significant role of rolling temperature. Journal of Materials Research and Technology, 2022. (SCI)
65.ZhiHui Cai, ShuaiJun Li, DeLiang Zhang, LiFeng Ma, Yi Feng, Jun Hu, Raja Devesh Kumar Misra. The significant influence of cooling rate and intercritical annealing temperature on austenite stability and relationship to mechanical behavior in medium manganese steel. steel research international, 2022: 2200571. (SCI)
66.TianYu Zhang, LingYu Wang, Yu Wang, Jun Hu, HongShuang Di, Wei Xu. Effect of low-temperature ausforming on bainitic transformation and mechanical properties in ultrahigh-strength bainitic steel. Journal of Iron and Steel Research International, 2022: 1-11. (SCI)
67.Jun Hu*, XuYang Li, QingWang Meng, LingYu Wang, YiZhuang Li, Wei Xu. Tailoring retained austenite and mechanical property improvement in Al-Si-V containing medium Mn steel via direct intercritical rolling. Materials Science and Engineering: A, 2022, 855: 143904. (SCI)
68.Cheng Zhou, QiBin Ye, Tan Zhao, Jun Hu*, XiuHua Gao, ZhaoDong Wang. Strengthening and toughening mechanisms in Ni-alloyed steel: Enhancing the integral stability of retained austenite. Materials Science and Engineering: A, 2022, 852: 143703. (SCI)
69.Ning Xu, LingYu Wang, Jun Hu, HongLiang Liu, Shuai Yu, Wei Xu. Batch annealing enhances the yield strength of a high quenching temperature Q&P steel through accelerated bainitic transformation. Materials Science and Engineering: A, 2022, 855: 143888. (SCI)
70.XinCheng Yan, Jun Hu, Xiao Zhang, Wei Xu. Obtaining superior low-temperature wear resistance in Q&P-processed medium Mn steel with a low initial hardness. Tribology International, 2022, 175: 107803. (SCI)
71.TianYu Zhang, LingYu Wang, Yu Wang, Jun Hu, HongShuang Di, Wei Xu. Tailoring bainitic transformation and enhancing mechanical properties of carbide-free bainitic steel via high-temperature ausforming. Materials Science and Engineering: A, 2022, 852: 143677. (SCI)
72.YuQian Wang, RuiHai Duan, Jun Hu, Z.A. Luo, ZongYi Ma, GuangMing Xie. Improvement in toughness and ductility of friction stir welded medium-Mn steel joint via post-welding annealing. Journal of Materials Processing Technology, 2022, 306: 117621. (SCI)
73.XiaoHui Xi, GuangQi Dong, LingYu Wang, Jun Hu, ChunGuang Shen, JinLiang Wang, Wei Xu. Formation mechanism of faulted bands and its effect on α′-martensitic transformation. Materials & Design, 2022, 224: 111321. (SCI)
74.ZhiSong Chai, Qi Lu, Jun Hu, LingYu Wang, Zhou Wang, JianFeng Wang, Wei Xu. Effect of retained austenite on the fracture behavior of a novel press-hardened steel. Journal of Materials Science and Technology, 2023, 135: 34-45. (SCI)
75.GuangQi Dong, JinLiang Wang, LingYu Wang, ChenChong Wang, Jun Hu, Wei Xu. Transitions in the thermal stability of pre-strained austenite-competing effects between defect density and slip band spacing. Scripta Materialia, 2023, 223: 115077. (SCI)
76.ZhiSong Chai, LingYu Wang, Zhou Wang, Qi Lu, Jun Hu, WenWen Sun, JianFeng Wang. Cr-enriched carbide induced stabilization of austenite to improve the ductility of a 1.7 GPa-press-hardened steel, Scripta Materialia 224 (2023) 115108. (SCI)
77.XinCheng Yan, Jun Hu*, Xiao Zhang, Wei Xu. Macroscopic and nanoscale investigation of the enhanced wear properties of medium-Mn steel processed via room-temperature quenching and partitioning. Wear, 2023: 204711. (SCI)
78.HengYi Zhang, LingYu Wang, Jun Hu, GuoDong Wang, Wei Xu. Optimum wear resistance achieved by balancing bulk hardness and work-hardening: A case study in austenitic stainless steels. Tribology Letters, 2023, 71(1): 7. (SCI)
79.LiuWei Zheng, HuiYun Zhang, QuanXin Shi, JinYao Ma, Wei Liang, Jun Hu. The high strength and hydrogen embrittlement resistance of selective laser melted 304 austenitic stainless steel. Materials Letters, 2023: 134013. (SCI)
80.HuiYun Zhang, LiuWei Zheng, QuanXin Shi, Wei Liang, Jun Hu*. Anisotropy in mechanical property and hydrogen embrittlement resistance of selective laser melted 304 austenitic stainless steel. Materials Letters, 2023: 134104. (SCI)
81.ZhongKai Li, YuJie Liu, YanFei Wang, Jun Hu, Lei Xu, JianJun Wang, ChunMing Liu, YunTian Zhu. Hierarchical strain band formation and mechanical behavior of a heterostructured dual-phase material. Journal of Materials Science and Technology, 2023. (SCI)
82.Shuo Huang, Jun Hu*, XuYang Li, JiMeng Liu, KangKang Liu, HeYong Qin, HongCai Wang. Influence of deformation degree at cold drawing on structure-properties relationship of a Fe-Ni-Cr superalloy. Journal of Alloys and Compounds, 2023: 167407. (SCI)
參考資料