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- 基本教学信息
- 本科教学信息
- 薄板坯连铸连轧微合金化技术
Creo2.0三维创新设计
测试技术
轴承用钢及制造技术 - 教学项目及获奖
- 研究生教学信息
- 学科及研究方向
- 1.[博士]机械设计及理论(080203),研究方向: 先进结构材料制备技术
2.[硕士]材料加工工程(080503),研究方向: 先进钢铁材料 - 研究生招生信息
- 每年招收1~2名博士研究生,2~4名硕士研究生
近五年的研究方向如下:
1)高端装备用关键基础零部件制造;2)高性能贝氏体钢稳定控制;3)超高强韧钢;4)基于大数据分析的材料结构设计。 - 硕士教学信息
- 连铸连轧微合金化技术 16学时
金属学与热处理 32学时 - 博士教学信息
- 科研信息
- 在研项目信息
- 1. 金属多级微结构设计及热加工调控,国家自然科学基金优秀青年基金,2022.1-2024.12,主持
2. 新一代抗低温耐腐蚀高强韧贝氏体轨道钢,国家重点研发计划青年科学家项目,2021.12-2025.11,主持
3. 快速相变纳米贝氏体钢设计、制备及应用中的关键问题,国家自然科学基金重点基金,2019.1-2023.12,参加(第二) - 完成项目信息
- 1. 梯度强变形锆合金及其在强外场下的组织演变和性能调控,国家重点基础研究发展计划-973计划子课题,2010,01-2014.08,参加
2. 无碳化物贝氏体钢变形中微观结构演变规律研究,科技部国家重点实验室基础研究项目,2014.01-2014.12,主持
3. 大功率风电机组用轴承钢关键技术开发,国家高技术研究发展计划-863计划,2012.01-2015.12,主研人,结题报告和科技报告主要撰写人。
4. 轧制变形及热处理制度对锆合金组织及性能影响,燕山大学博士基金,2013.09-2016.09,主持
5. TMCP工艺对中低碳贝氏体钢组织稳定性的影响,国家工程中心开放课题,2013.06-2016.06,主持
6. 高强韧性双态锆合金的微结构调控及强韧化机理研究,燕山大学青年教师课题A类,2014.09-2017.07,主持
7. 新型ZrNbAl合金相间协调变形机理研究,河北省自然科学基金,2015.01-2017.12,主持
8. 双态锆合金的微结构调控及强韧化机理研究,国家自然科学基金青年基金,2017.1-2019.12,主持
9. 高强度钢轨钢微结构调控及性能研究,,科技部国家重点实验室基础研究项目,2017.01-2017.12,主持
10. 纳米贝氏体技术轴承工业化应用可行性研究,与洛阳LYC轴承有限公司合作项目,2016.02-2017.02,主持
11. G8Cr15轴承钢工业化应用基础研究,与洛阳LYC轴承有限公司合作项目,2020.01-2021.01,主持
12. 轨道交通用表层纳米贝氏体渗碳硬化齿轮研究,企业攻关课题,2020.1-2020.12,主持
13. 短相变周期纳米贝氏体轴承钢的制备路径及其机理研究,博士后面上项目,2018.5-2020.1,主持
14. 新型快速相变纳米贝氏体渗碳轴承钢的设计、制备及机理研究,河北省高等学校青年拔尖人才计划,2018.3-2020.12,主持
15. 多相复合协同提升纳米贝氏体轴承钢性能的路径及机理研究,国家自然科学基金面上基金,2019.1-2022.12,主持
16. 纳米贝氏体轴承钢中残余奥氏体的稳定性评价及调控,河北省自然科学基金-优秀青年科学基金项目,2020.1-2022.12,主持 - 专著、专利信息
- 著作:
[1] 杨志南,张福成,钢中贝氏体:理论与实践,译著,燕山大学出版社,2021
[2] 张福成,杨志南,贝氏体中残余奥氏体,专著,燕山大学出版社,2019.10
[3] 郭长虹,权凌霄,贾晓勐,主编,杨志南等参编,轻松学Creo2.0机械设计,科学出版社,2014
[4] 杨志南,张福成,刘郁丽,詹梅,锻压手册第四版-第1卷锻造-第9篇锻件热处理及质量控制-第1章钢锻件的热处理,2020年12月出版。
发明专利:
[1] 杨志南, 张福成, 陈晨. 一种风电轴承用中碳硼微合金化钢的制备方法. 中国, ZL 201410326037.3.
[2] 杨志南, 刘峰超, 张福成. 一种具有α/β双态组织锆铌合金的制备方法. 中国, ZL 201110195057.8.
[3] 杨志南, 张福成, 王艳辉, 张明. 一种渗碳轴承钢及其制备方法. 中国, ZL 201510675542.3
[4] 杨志南, 张福成. 一种耐冲击载荷轴承用钢及其热处理方法. 中国, ZL201610280071.0
[5] 杨志南, 张福成. 一种重载齿轮的制备方法. 中国, ZL201410808897.0 使用权转让
[6] 杨志南, 张福成, 楚春贺. 一种加速纳米贝氏体相变的方法. 中国, ZL 201810218061.3, 授权日期:2019.06.25。
[7] 杨志南, 张福成, 楚春贺. 纳米贝氏体钢的组织调控方法及其获得的纳米贝氏体钢. 中国, ZL 201910310343.0, 申请日期:2019.04.17, 授权日期:2020.01.21。使用权转让
[8] 杨志南, 张福成, 赵佳莉, 张明, 刘长波, 郑春雷, 尤蕾蕾, 李艳国. 高韧性轴承的组织调控方法及纳米贝氏体轴承用钢. 中国, ZL 201910310340.7。授权日期:2020.07.03
[9] 杨志南, 张福成, 吕博, 张明. 纳米贝氏体轴承热处理方法及其制得的轴承. 中国, 201910310337.5。 授权日期:2020.10.09,驳回-复审-授权
[10] 杨志南, 张福成, 姜锋, 李靖宇. 一种复合马氏体钢及其制备方法. 中国, 201911080949.6, 申请日20191107。授权2020.12.18
[11] 杨志南、张福成、郑春雷、李艳国、尤蕾蕾、康杰、张明、庞碧涛、王建军、龙晓燕、栾天岭. 一种利用相变速度差制备耐冲击钢制零件的方法, 中国,202010922877.1,实审公布,2020.11.20。
[12] 张福成, 李俊魁, 杨志南. 一种基于层错能调控的超高强塑韧性贝氏体钢制备方法. 中国,202011042716.X,申请日,2020.09.28.,公布中。
[13] 董汉杰、尤蕾蕾、陈小超、李昭昆、刘汇河、杨志南、史亚妮、杨哲、王艳山、龚建勋、王明礼、焦晶明、张中文,一种高碳铬钼系轴承钢零件新型马贝复合热处理工艺,202010060107.0,实审。
[14] 张福成, 陈晨, 杨志南. 一种风电偏航, 变桨轴承套圈用钢及其制备方法. ZL 201510066587.0, 授权。
[15] 张福成, 吕博, 张明, 杨志南, 王天生, 钱立和. 高锰钢辙叉机械冲击硬化加工方法, 中国, ZL 200910227860.8. 授权
[16] 张福成, 杨志南, 肖洋洋. 一种具有梯度组织结构锆铌合金的方法. 中国, ZL 201210286111.4. 授权
[17] 张福成, 吕博, 张明, 杨志南, 郑春雷, 康杰. 全贝氏体钢辙叉及其制造方法. 中国, ZL 201210442455.3. 授权
[18] 张福成, 王天生, 杨志南, 王艳辉, 康杰, 郑炀曾. 整体硬贝氏体轴承钢及其制造方法. 中国, ZL 201210399526.3. 授权
[19] 张福成, 吕博, 王天生, 郑炀曾, 张明, 郑春雷, 杨志南. 含铝低温贝氏体钢的制备方法. 中国, ZL 201210504420.4. 授权
[20] 张福成, 冯晓勇, 杨志南, 康杰. 一种冲击摩擦疲劳试验机. 中国, ZL 201410150405.3. 授权
[21] 张福成, 刘硕, 康杰, 杨志南, 吕博, 郑炀曾. 纳米珠光体钢轨的制备方法. ZL 201410285670.2授权
[22] 李建辉, 李强, 张福成, 毛磊, 高颖, 刘闪, 秦森, 胡宝成, 杨志南. 一种锆铝合金及一种锆铝合金及其晶粒的细化方法. ZL2015100131515. 授权
[23] F.C. Zhang, B. Lv, Shou Liu, Z.N. Yang, M.M. Wang, Yangzeng Zheng, Nano-Pearlite Rail and Process for Manufacturing Same, USA Patent, US 2015/0368765 A1. 授权
[24] 张福成, 杨志南, 赵佳丽, 吕博. 高硅钢中SiC夹杂物的消除方法. 201610882545.9, 授权
[25] 张福成, 杨志南, 吕博, 赵晓洁, 利用原位纳米AlN异质形核加速钢中贝氏体相变的方法, 201710622683.8。授权
[26] 张福成, 吕博, 杨志南, 张明, 超高强度高韧性无碳化物贝氏体耐磨钢板及其制备方法, ZL 201610916702.3, 授权
实用新型专利:
[1] 杨志南, 姜峰. 一种用于楔形钢板感应加热的新型感应线圈. ZL 201720536864.4, 授权日期:2018.01.02
[2] 杨志南, 曾慧敏, 刘启. 一种用于大型风电齿圈热加工模拟的实验装置. ZL 201720679337.9, 授权日期, 2018.02.02
[3] 杨志南, 李雪梅. 一种大模数矿山机械用齿轮仿形加热线圈的工装卡具. ZL 201720808594.8, 授权日期, 2018.02.16
[4] 杨志南, 姜峰. 一种用于调心滚子轴承内圈感应加热的感应装置. ZL 201721135870.5, 授权日期, 2018.04.27
[5] 杨志南, 姜峰. 一种用于矩形花键轴淬火的新型感应装置. ZL 201721123219.6, 授权日期, 2018.04.27
[6] 杨志南, 姜峰, 张福成, 李雪梅, 戴立强. 一种用于可以更换工作头的新型风镐纤. ZL 201821661174.2. 授权日期2019.05.31.
[7] 杨志南, 李雪梅, 姜峰. 一种线切割机床全方位转动定位工装卡具. ZL 201821661182.7, 授权日期2019.07.05
[8] 杨志南, 李雪梅, 姜峰. 一种多工位装卡圆形试样的手工磨样卡具. ZL 201821661201.6, 授权日期2019.07.05
[9] 杨志南, 姜峰, 李雪梅. 一种使用实验室抛光机打磨金相试样的装置. ZL 201821661878.X, 授权日期2019.08.09
[10] 杨志南, 李雪梅, 姜峰. 一种新型移动式精确定位装卡的摩擦磨损装置. ZL 201821656587.1, 授权日期2019.07.05
[11] 杨志南, 刘长星, 常明明, 王虎, 张鏖茵. 一种用于测量钢轨焊接毛刺的机械测量工具, ZL 201920443778.8, 授权日期2019.10.29
[12] 杨志南, 赵宇飞, 牛身身. 一种多工位感应淬火调节装置,ZL 201920583982.X,授权日期2020.03.27
[13] 杨志南,张春生,李靖宇,一种用于轧机辊缝测量的新型测量装置,ZL 202020008244.5,授权日期:20201106
[14] 杨志南,李靖宇,张春生,一种用于小体积坯料轧制的辅助定位装置,ZL 202020007902.9,授权日期:20201023
[15] 杨志南,贾德诚,一种用于建筑施工的新型机械吊臂,申请日期20201130. - 学术论文信息
- 2023年
[1] Jiang Feng, Wang Qingchao, Li Hongguang, Dong Runzhou, Yang Zhinan*, Chen Chen*, Liu Feng, Zhang Fucheng, Effect of the diffused content of carbon on mechanical properties of multilayered composite steel, Journal of Materials Research and Technology, 2023, 22: 668-682.
[2] Decheng Jia, Dongyun Sun, Qingchao Wang, Feng Liu, Yanguo Li, Sujuan Yuan*, Zhinan Yang*, Fucheng Zhang,Effects of preformed martensite on microstructure and mechanical properties of nanobainite bearing steel, Metal, 2023, 13:99.
[3] Xiaojie Zhao, Kai Zhao, Changbo Liu, Zhinan Yang*, Fucheng Zhang, Effect of ausforming on the bainitic transformation and microstructure in medium carbon V–N micro-alloyed steel, Journal of Materials Research and Technology, 2023, 23: 637-647.
[4] Junkui Li, Zhinan Yang, Chen Chen*, Fucheng Zhang, A medium-C martensite steel with 2.6 GPa tensile strength and large ductility, Scripta Materialia, 2023, 228: 115327.
[5] Y.G. Li, W. Liu, X.Y. Long*, Z. Dai, R.X. Yang, Z.N. Yang, F.C. Zhang, Study on uniaxial tensile deformation of bainite/ferrite dual phase steel, Materials Science and Technology, 2023, 39(4): 434-442.
[6] 李靖宇, 王耀民, 姜锋, 李艳国*, 杨志南, 张福成. 粉末冶金马氏体-奥氏体复合钢的组织与性能研究. 粉末冶金工程, 接收。
[7] 刘长波, 孙东云, 李艳国, 龙晓燕, 杨志南*, 张福成. 快速热处理高韧性超细贝氏体钢构筑梯度结构研究,钢铁研究学报,接收。
2022年
[1] X.B. Wang, C.B. Liu, Y.M. Qin, Y.G. Li*, Z.N. Yang*, X.Y. Long, M.M. Wang, F.C. Zhang. Effect of tempering temperature on microstructure and mechanical properties of nanostructured bainitic steel. Mater. Sci. Eng. A, 2022, 832: 142357.
[2] J.K. Li, Z.N. Yang*, G.C. Zhao, F.C. Zhang*. A simultaneously improved strength and ductility on carbide free bainite steel via novel ausrolling and twinning process based on SFE controlling. Mater. Sci. Eng. A, 2022, 832: 142442.
[3] B. Nawaz, X.Y. Long, Y.G. Li, Z.N. Yang*, F.C. Zhang. Effect of Ferrite/Martensite on Microstructure Evolution and Mechanical Properties of Ultrafine Vanadium Dual-Phase Steel, Journal of Materials Engineering and Performance, 2022, 31: 4305-4317.
[4] Y.M. Qin, C.B. Liu, C.S. Zhang, X.B. Wang, X.Y. Long, Y.G. Li*, Z.N. Yang*, F.C. Zhang, Comparison on wear resistance of nanostructured bainitic bearing steel with and without residual cementite, Journal of Iron and Steel Research International, 2022, 29: 339-349.
[5] F. Jiang, Y.M. Wang, Z.N. Yang*, C. Chen, F.C. Zhang. Mechanism of increased strength and ductility of martensite-austenite composite steel with different thickness ratios, Mater. Sci. Eng. A, 2022, 841: 143035.
[6] J.Y. Li, F. Jiang, Y.G. Li, M. Zhang, C. Chen, Z.N. Yang*, F.C. Zhang*. Effect of warm-rolling on the strength and ductility of multilayered composite steel, Mater. Sci. Eng. A, 2022, 841: 143043.
[7] D.Y. Sun, H.Q. Zhao, L.L. You, X.Y. Long, Z.N. Yang*, Y.G. Li**, F. Liu, F.C. Zhang. Effects of first-step controlling on ultra-fine bainitic steel produced by two-step austempering process, Mater. Sci. Eng. A, 2022, 845: 143212.
[8] Yanhui Wang, Qingsong He, Qian Yang, Dong Xu, Zhinan Yang*, Fucheng Zhang*. Microstructure characteristics and wear performance of a carburizing bainite + martensite Si/Al-rich gear steel, Metals, 2022, 12:822.
[9] Xubiao Wang, Xiangze Zhang, Qiwen Fang, Hua Ma, Ruijie Zhang, Feng Liu, Zhinan Yang*, Fucheng Zhang*. Effect of tempering on stability of retained austenite and tensile properties of nanostructured bainitic steel. Mater. Sci. Eng. A, 2022, 856:143958.
[10] C. Chen, F.C. Zhang*, H. Xu, Z.N. Yang, G.M. Poletaev. Molecular dynamics simulations of dislocation–coherent twin boundary interaction in face-centered cubic metals, J. Mater. Sci., 2022, 57: 1833-1849.
[11] X.Y. Long*, D.Y. Sun, K. Wang, F.C. Zhang**, Z.N. Yang, Y.G. Li, C.L. Zheng. Effect of carbon distribution range in mixed bainite/martensite/retained austenite microstructure on mechanical properties. Journal of Materials Research and Technology, 2022, 17: 898-912.
[12] B. Lv, D.X. Yin, D.Y. Sun, Z.N. Yang, X.Y. Long*, Z.L. Liu. Effect of Two-Step High Temperature Treatment on Phase Transformation and Microstructure of V-Bearing Bainitic Steel. Metals, 2022, 12, 983.
[13] L.J. Zhao, J.H. Li, Q. Yang, Y.H. Wang*, X.L. Zhang, H.Z. Li, Z.N. Yang, D. Xu*, J.W. Liu. Study on Friction and Wear Properties of New Self-Lubricating Bearing Materials, Crystals, 2022, 12, 834.
[14] Dongyun Sun, Jun Zhao, Minghe Zhang, Qiwen Fang, Xiaoyan Long*, Fucheng Zhang, ZhinanYang. In-situ observation of phase transformation during heat treatment process of high-carbon bainitic bearing steel, J. Mater. Res. Technol., 2022, 19: 3713-3723.
[15] Ting Zhao, Fei Wang, Chen Chen*, Hua Ma, Zhinan Yang, Fucheng Zhang, Tiebing Tang, Effect of Mn content and strain rate on mechanical properties of high-C high-Mn austenitic steel, Mater. Sci. Eng. A, 2022, 851: 143653.
[16] Xiaojie Zhao, Zhinan Yang, Chunlei Zheng, Fucheng Zhang, Xiaoyan Long*. In situ observation of bainitic transformation behavior in medium carbon bainitic steel. J. Mater. Res. Technol., 2022, 21: 330-338.
[17] Chen Chen*, Hua Ma, Fei Wang, Zhinan Yang, Fucheng Zhang, Zehui Yan. Influence of Carbon Content on Tensile Properties of Pure High Manganese Austenitic Steel, Coatings, 2022, 12, 1622.https://doi.org/10.3390/coatings12111622
[18] Yin Dongxin; Qin Yuman; Dai Zhao; Zhang Fucheng; Yang Zhinan; Li Yanguo Long Xiaoyan; Investigating microstructural properties of ferrite/bainite dual-phase steel through simple process control, Materials Science and Technology, 2022, 38(16):1348-1357.
[19] Yanhui Wang, Baisong Liu, Qiang Pan, Jing Zhao*, Xiaojia Zhao, Huaqiang Sun, Dong Xu*, Zhinan Yang. Effect of Austempering on Mechanical Properties of Nb/V Microalloyed Bainitic Bearing Steel, Crystals, 2022, 12:1001.
[20] 王耀民,姜锋,王庆超,闫学峰,杨志南*,张福成. 层数变化对马氏体-奥氏体复合钢组织和性能的影响,钢铁,2022,57(11):113-122.
[21] 施庆峰,杨志南*,张福成. 贝氏体钢组合辙叉心轨过早失效微观分析,铁道建筑,2022,62(11): 32-35.
2021年
[1] Z.N. Yang*, F. Jiang, Y.M. Wang, Q.C. Wang, M.X. Huang, Y.F. Wang, C. Chen*, F.C. Zhang*. Making composite steel higher strength and higher ductility via introducing carbon diffusion strategy. Mater. Res. Lett., 2021, 9(9): 391-397. 一区TOP.
[2] Z.N. Yang*, C.B. Liu, C.Y. Zhang, Q.W. Fang, Y.G. Li*, G.M.A.M. El-Fallah, S.W. Ooi, F.C. Zhang*. Microplasticity behavior of multiphase high-strength nanobainitic steel based on a modified law of mixtures, Mater. Sci. Eng. A., 2021, 825: 141848.
[3] 李伟,秦羽满,张明,杨志南*,张福成,尤蕾蕾. 热处理工艺对纳米贝氏体渗碳轴承钢表层组织和性能的影响, 机械工程学报, 2021, 57(4): 63-72.
[4] 李伟,秦羽满,王艳辉,康杰,杨志南*,张福成,尤蕾蕾. 低温贝氏体转变对渗碳纳米贝氏体轴承钢表层组织与性能的影响, 燕山大学学报, 2021, 45: 25-32.
[5] D.Y. Sun, C.B. Liu, X.Y. Long, X.J. Zhao, Y.G. L, B. Lv, F.C. Zhang, Z.N. Yang*. Effect of introduced vanadium carbide at the bay region on bainite transformation, microstructure and mechanical properties of high-carbon and high-silicon steel. Mater. Sci. Eng. A, 2021, 811:141055.
[6] R.J. Zhang, C.L. Zheng*, C. Chen, B. Lv*, G.H. Gao, Z.N. Yang, Y.Q. Yang, F.C. Zhang, Study on fatigue wear competition mechanism and microstructure evolution on the surface of a bainitic steel rail. Wear, 2021, 482-483: 203978.
2020年
[1] Z.N. Yang*, F.C. Zhang*. Nanostructured Bainitic Bearing Steel. ISIJ Inter., 2020, 60(1), 18-30.
[2] X.J. Zhao, Z.N. Yang*, F.C. Zhang. In situ observation of the effect of AlN particles o bainitic transformation in a carbide-free medium carbon steel, International Journal of Minerals, Metallurgy and Materials, 2020, 27: 620-629.
[3] W.W. Huang*, X.Q. Zhang, S.B. Zheng, W.J. Zhou, J. Xie, Z.N. Yang*, Q.C. Zhang*. Calix[6] quinone as high-performance cathode for lithium-ion battery. Science China Materials. 2020, 63(3): 339–346 一区TOP
[4] 秦羽满,李艳国,张明,张福成,尤蕾蕾,杨志南*,细化渗碳体对高碳纳米贝氏体轴承钢的影响,中国冶金,2020, 30(9): 104-109.
[5] 尤蕾蕾,王红伟,侯俊,李雪梅,杨志南*,G8Cr15轴承钢的工业化应用分析,中国冶金,2020, 30(9): 91-97,128.
[6] Bilal Nawaz, Zhinan Yang*, Fucheng Zhang, Junkui Li. Effect of intercritical temperature on the strain hardening of dual-phase bainite/ferrite steel. Mater. Sci. Technol., 2020, 36(14): 1614-1620.
[7] M. Zhang, X.W. Yang, J. Kang, F.C. Zhang, Z.N. Yang*, Micro plastic deformation behavior of carbide-free bainitic steel during tensile deformation process. Materials. 2020, 13, 4703.
[8] Yuman Qin, Xuemei Li, Bo Lv*, Xiaoyan Long*, Zhinan Yang, Fucheng Zhang, Yanguo Li, Leilei You. Effect of refined cementite on the microstructure and properties of nanostructured bainitic bearing steel. Mater. Sci. Eng. A, 2020, 797: 140220.
[9] X.Y. Long, G.C. Zhao, F.C. Zhang*, S. Xu, Z.N. Yang, G.J. Du, R. Branco, Evolution of tensile properties with transformation temperature in medium-carbon carbide-free bainitic steel. Mater. Sci. Eng. A 775 (2020) 138964.
[10] Y.H. Wang*, ZN. Yang, F.C. Zhang*, Y.M. Qin, X.B. Wang, B. Lv, Microstructures and properties of a novel carburizing nanobainitic bearing steel, Mater. Sci. Eng. A, 777 (2020) 139086.
2019年
[1] Z.N. Yang, X.B. Wang, F. Liu, F.C. Zhang, L.J. Chai, R.S. Qiu, L.Y. Chen, Effect of intercritical annealing temperature on microstructure and mechanical properties of duplex Zr-2.5Nb alloy. Journal of Alloys and Compounds. Journal of Alloys and Compounds 776 (2019) 242-249.
[2] Fucheng Zhang*, Zhinan Yang**, Development and Perspective of High Performance Nanostructured Bainitic Bearing Steel. Engineering, in press.
[3] Chunhe Chu, Yuman Qin, Xuemei Li, Zhinan Yang*, Fucheng Zhang*, Changhong Guo, Xiaoyan Long, Leilei You. Effect of two-step austempering process on transformation kinetics of nanostructured bainitic steel. Materials 2019, 12, 166; doi:10.3390/ma12010166.
[4] Zhinan Yang*, Chunhe Chu, Feng Jiang, Yuman Qin, Xiaoyan Long, Shuli Wang, Da Chen, Fucheng Zhang**. Accelerating nano-bainite transformation based on a new constructed microstructural predicting model. Materials Science & Engineering A, in press.
[5] Zhinan Yang*, Fucheng Zhang*. Nanostructured Bainitic Bearing Steel. ISIJ International, review in process.
[5] Jiali Zhao, Bo Lv, Fucheng Zhang, Zhinan Yang, Lihe Qian, Chen Chen, Xiaoyan Long, Effects of austempering temperature on bainitic microstructures and mechanical properties of a high-C high-Si steel, Materials Science & Engineering A 742 (2019) 179–189.
[6] Xiaojie Zhao, Zhinan Yang, Fucheng Zhang, Xiaoyan Long, Chen Chen. Acceleration of bainitic transformation by introducing AlN in medium carbon steel. Materials Science and Technology, 2019, 35:147–154.
[7] Jiali Zhao, Fucheng Zhang , Bo Lv, Zhinan Yang, Chen Chen, Xiaoyan Long, Xiaojie Zhao, Chunhe Chu, Inconsistent effects of austempering time within transformation stasis on monotonic and cyclic deformation behaviors of an ultrahigh silicon carbide-free nanobainite steel, Mater. Sci. Eng. A, in press.
[8] Shule Xia, Fucheng Zhang, Zhinan Yang. Cyclic deformation behaviours of 18Mn3Si2CrNiMo multiphase (martensite/bainite/retained austensite) steel. Materials Science & Engineering A 744 (2019) 64–73.
2018年
[1] Mingming Wang, Jun Shan, Chunlei Zheng, Ming Zhang, Zhinan Yang, Fucheng Zhang, Effects of deformation and addition of aluminium on spheroidisation of high-carbon-bearing steel. Materials Science and Technology, 2018, 34: 161-171.
[2] Liang-Yu Chen, Peng Shen, Lina Zhang, Sheng Lu, Linjiang Chai, Zhinan Yang, Lai-Chang Zhang, Corrosion behavior of non-equilibrium Zr-Sn-Nb-Fe-Cu-O alloys in hightemperature 0.01 M LiOH aqueous solution and degradation of the surface oxide films. Corrosion Science, 136 (2018) 221–230.
[3] L.J. Chai, K. Chen, Y. Zhi, K.L. Murty, L.Y. Chen, Z.N. Yang, Nanotwins induced by pulsed laser and their hardening effect in a Zr alloy, Journal of Alloys and Compounds, 748 (2018) 163-170.
[4] X.Y. Long, F.C. Zhang, Z.N. Yang, B. Lv. Study on microstructures and properties of carbide-free and carbide-bearing bainitic steels. Materials Science & Engineering A, 2018, 715: 10–16.
[5] Z.N. Yang, Y.L. Ji, F. C. Zhang, M. Zhang, B. Nawaz, C.L. Zheng. Microstructural evolution and performance change of a carburized nanostructured bainitic bearing steel during rolling contact fatigue process, Materials Science & Engineering A, 725 (2018) 98–107.
[6] L.J. Chai*, J.Y. Xia, Y. Zhi, Y.N. Gou, L.Y. Chen, Z.N. Yang*, N. Guo, Deformation mode-determined misorentation and microstructural characteristics in rolled pure Zr sheet, Since China Technological Sciences, 2018, 61(9): 1346-1352.
[7] 杨志南,赵晓洁,张福成,*,李艳国, 龙晓燕,张明. 加速贝氏体相变研究方法综述. 燕山大学学报, in press.
[8] Shule Xia, Fucheng Zhang, Zhinan Yang. Microstructure and mechanical properties of 18Mn3Si2CrMo steel subjected to austempering at different temperatures below Ms. Materials Science & Engineering A, 724 (2018) 103-111.
[9] Linjiang Chai, Ke Chen, Shuyan Wang, Jiying Xia, Tingting Wang, Zhinan Yang. Microstructural characteristics of as-forged and β-air-cooled Zr−2.5Nb alloy. Trans. Nonferrous Met. Soc. China 28(2018) 1321−1328
2017年
[1] Mingming Wang, Fucheng Zhang, Zhinan Yang, Effects of high-temperature deformation and cooling process on the microstructure and mechanical properties of an ultrahigh-strength pearlite steel. Materials and Design 114 (2017) 102–110.
[2] 陈晨,杨志南,张福成,40CrNiMoV钢在大尺寸轴承中的应用. 金属热处理,2017, 42(4): 6-11.
[3] 张福成,杨志南*,雷建中,庞碧涛,王明礼. 贝氏体钢在轴承中的应用进展. 轴承,2017,1(1):54-64.
[4] M. Zhang, , Y.N. Li, F.C. Zhang, X.B. Wanga, L.Y. Chen, Z.N. Yang*, Effect of annealing treatment on the microstructure and mechanical properties of a duplex Zr-2.5Nb alloy. Materials Science & Engineering A 706 (2017) 236–241
[5] Z.N. Yanga, L.Q. Daia, C.H. Chub, F.C. Zhanga,b*, L.W. Wangc, A.P. Xiaod, Effect of aluminium alloying on the hot deformation behaviour of nano-bainite bearing steel, Journal of Materials Engineering and Performance,2017, 26:5954-5962.
[6] Mingming Wang, Fucheng Zhang, Zhinan Yang. Effects of alloying elements and cooling rates on the high-strength pearlite steels. MATERIALS SCIENCE AND TECHNOLOGY, 2017, VOL. 33, NO. 14, 1673–1680
[8] Shule XIA, Fucheng ZHANG, Chunyu ZHANG, Zhinan YANG. Mechanical Properties and Microstructures of a Novel Lowcarbon High-silicon Martensitic Steel, ISIJ International, Vol. 57 (2017), No. 3, pp. 558–563.
[9] X. Y. Long, F. C. Zhang, J. Kang, Z. N. Yang, D. D. Wu, K. M. Wu & G. H. Zhang, Study on carbide-bearing and carbide-free bainitic steels and their wear resistance, Materials Science and Technology 2017, 33: 615-622.
[9] F.C. Zhang, Y.H. Wang, Z.N. Yang, Y.G. Li, Research and Application Progress of Nanostructured Bainitic Steel in Bearings, Material Science & Engineering International Journal, 2017, 1(2): 00008. 1-5.
[10] Linjiang Chai, Shuyan Wang, Zhinan Yang, Hucheng Pan, Bimodal plate structures induced by pulsed laser in duplex-phase Zr alloy, Science China Technological Sciences, 2017, 60: 587-592.
[11] 郑春雷,佘丽,王艳辉,杨志南,张福成,高碳贝氏体轴承钢滚动接触疲劳性能的研究,机械工程学报,2017,:53:110-117.
2016年
[1] Bo Lv, Zhimao Zhang, Zhinan Yang*, Fucheng Zhang, Chunlei Zheng, Yarong He. A higher corrosion resistance for a bainitic steel with Al instead of Si. Materials Letters, 173 (2016) 95–97.
[2] M.M. Wang, B. Lv, Z.N. Yang, F. C. Zhang. Wear resistance of bainite steels that contain aluminium. Materials Science and Technology, 32(2016)282-290.
[3] Yanhui Wang, Zhinan Yang, Fucheng Zhang, Dongdong Wu. Microstructures and mechanical properties of surface and center of carburizing 23Cr2Ni2Si1Mo steel subjected to low-temperature austempering. Materials Science & Engineering A, 670 (2016) 166–177.
[4] Shuo Liu, Fucheng Zhang, Zhinan Yang, Mingming Wang, Chunlei Zheng. Effects of Al and Mn on the formation and properties of nanostructured pearlite in high-carbon steels. Materials and Design, 93 (2016) 73–80.
[5] Chunlei Zheng, Bo Lv, Fucheng Zhang, Zhinan Yang, Jie Kang, Li She, Tiansheng Wang. A novel microstructure of carbide-free bainitic medium carbon steel
observed during rolling contact fatigue. Scripta Materialia 114 (2016) 13–16.
[6] Yanguo Li, Fucheng Zhang, Cheng Chen, Bo Lv, Zhinan Yang, Chunlei Zheng. Effects of deformation on the microstructures and mechanical properties of carbide–free bainitic steel for railway crossing and its hydrogen embrittlement characteristics. Materials Science & Engineering A, 651 (2016) 945–950.
[7] 含Si/Al低温贝氏体钢的研发与应用. 张福成, 杨志南, 郑春雷, 龙晓燕,王明明, 王艳辉. 世界金属导报, B04, 2016.01.12.
[8] Zhinan Yang, Fucheng Zhang, Yunlong Ji, Yanhui Wang, BoLv, Mingli Wang. Notably improved mechanical properties via introducing a short austempering treatment on low-carbon martensite steel. Materials Science & Engineering A 673 (2016) 524–529.
[9] Zhinan Yang, Yingnan Li, Yanguo Li, Fucheng Zhang, Ming Zhang. Constitutive modelling for flow behaviour of medium carbon bainitic steel and its processing maps. Journal of Materials Engineering and Performance, 25 (2016) 5030–5039.
[10] C. Chen, X.Y. Feng, B. Lv, Z.N. Yang, F.C. Zhang, A study on aging carbide precipitation behavior of hadfield steel by dynamic elastic modulus. Materials Science & Engineering A 677 (2016) 446–452.
[11] Yanhui Wang, Fucheng Zhang, Zhinan Yang, Bo Lv, Chunlei Zheng. Rolling Contact Fatigue Performances of Carburized and High-C Nanostructured Bainitic Steels. Materials 2016, 9, 960; doi:10.3390/ma9120960
[12] X. Y. Long, F. C. Zhang, J. Kang, Z. N. Yang, D. D. Wu, K. M. Wu, G. H. Zhang. Study on carbide-bearing and carbide-free bainitic steels and their wear resistance. Materials Science and Technology, 2016, DOI 10.1080/02670836.2016.1242205.
2015年
[1] Yang Zhinan, Fucheng Zhang, Chunlei Zheng, Ming Zhang, Bo Lv, Lin Qu. Study on hot deformation behaviour and processing maps of low carbon bainitic steel. Materials & Design, 66 (2015) 258–266.
[2] Ming Zhang, Fucheng Zhang, Zhinan Yang*, Yingnan Li, Lin Qu, Huijuan Zhen. Effect of cooling process on the formation of duplex microstructure in Zr-2.3Nb alloy. Journal of Alloys and Compounds, 651 (2015) 316-321.
[3] C. Chen, F.C. Zhang, Z.N. Yang, C.L. Zheng. Superhardenability behavior of vanadium in 40CrNiMoV steel. Materials & Design 83 (2015) 422–430.
[4] J.H. Li, Q. Li, F.C. Zhang, S. Liu, L. Mao, B.C. Hu, Z.N. Yang. Effects boron on microstructure and mechanical properties of Zr3Al-based alloys, Materials Letters, 2015, 153: 70-72.
[5] Fucheng Zhang, Xiaoyong Feng, Zhinan Yang, Jie Kang, Tiansheng Wang. Dislocation–Twin Boundary Interactions Induced Nanocrystalline via SPD Processing in Bulk Metals, Scientific Reports, 2015, 5: 1-5.
[6] 陈晨, 杨志南, 张洋, 张福成, 郑炀曾. 大功率风电偏航轴承套圈用钢及其模拟热处理工艺, 机械工程学报, 2015, 51: 29-37.
[7] 赵佳莉,杨志南,张福成. 70Si3Mn 钢中无碳化物贝氏体组织及其性能研究, 燕山大学学报, 2015, 39: 199-212.
2014年
[1] Z.N. Yang, F.C. Zhang, L. Qu, Z.G. Yan, Y.Y. Xiao, R.P. Liu, X.Y. Zhang, Formation of duplex microstructure in Zr-2.3Nb alloy and its plastic behaviour at various strain rates. International Journal of Plasticity 54(2014)163-177.
[2] L. Qu, Z.N. Yang, F.C. Zhang, M. Zhang, X.Y. Zhang, R.P. Liu, Effect of deformation and heat treatment on the microstructure and mechanical properties of β-Zr40Ti5Al4V alloy, Journal of Alloys and Compounds 612(2014)80-89.
[3] X.Y. Feng, F.C. Zhang, J. Kang, Z.N. Yang, X.Y. Long, Sliding wear and low crcle fastigue properties of new carbide free bainitic rail steel, Materials Science and Technology 30(2014)1410-1418.
[4] J. Kang, F.C. Zhang, X.Y. Long, Z.N. Yang, Synergistic enhancing effect of N+C alloying on cyclic deformation behaviors in austenitic steel, Materials Science and Engineering A 610(2014)427-435.
[5] J. Kang, F.C. Zhang, Z.N. Yang, X.Y. Long, Cyclic deformation behavior of a new N+C alloying austenitic manganese steel, Advanced Materials Research 891-892(2014)1621-1626.
2013年
[1] Yang Zhinan, Liu Fengchao, Yan Zhigang, Zhang Fucheng, Effect of Annealing on Microstructure and Hardness in Hot and Cold Rolled Zr705, Rare Metal Materials and Engineering, 42(2013)254-258.
[2] X.Y. Feng, F.C. Zhang, Z.N. Yang, M. Zhang, Wear behaviour of nanocrystallized Hadfield steel, Wear, 305(2013)299-304.
[3] W.M. Ke, F.C. Zhang, Z.N. Yang, M. Zhang, Micro-characterization of macro-sliding wear for steel, Materials Characterization 82(2013)120-129.
[4] 张福成,杨志南,康杰,铁路辙叉用贝氏体钢研究进展,燕山大学学报,37(2013)1-7.
2012年
[1] Z.N. Yang, F.C. Zhang, Y.Y. Xiao, Z.G. Yan, Dynamic recovery: The explanation for strain softening behaviour in Zr-2.3Nb alloy, Scripta Materialia 67 (2012) 959-962.
[2] F.C. Liu, Z.N. Yang, C.L. Zheng, F.C. Zhang, Simultaneously improving the strength and ductility of coarse-grained Hadfield steel with increasing strain rate, Scripta Materialia 66 (2012) 431–434.
[3] Z.N. Yang, F.C. Liu, F.C. Zhang, Z.G. Yan, Y.Y. Xiao, Microstructural evolution and mechanical properties in Zr705 during the rolling process, Materials Science and Engineering A 544 (2012) 54–58.
[4] Z.N. Yang, Y.Y. Xiao, F.C. Zhang , Z.G. Yan, Effect of cold rolling on microstructure and mechanical properties of pure Zr, Materials Science & Engineering A 556 (2012) 728–733.
[5] Z.N. Yang, F.C. Zhang, F.C. Liu, Z.G. Yan, Y.Y. Xiao, Achieving high strength and toughness in a Zr–2.3Nb alloy by the formation of duplex microstructure, Materials and Design 40 (2012) 400–406.
2011年
[1] F.C. Zhang, Z.N. Yang, L.H. Qian, F.C. Liu, B. Lv and M. Zhang, High speed pounding: A novel technique for the preparation of a thick surface layer with a hardness gradient distribution on Hadfield steel, Scripta Materialia 64 (2011) 560–563.
[2] 杨志南,张明,张福成,冯晓勇,高密度脉冲电流对服役后期高锰钢辙叉组织结构的影响,材料研究学报, 25(2011)342-346.
[3] 杨志南,张福成,张明,刘峰超,孙登月,高锰钢辙叉机械冲击预硬化工艺研究,机械工程学报,47(2011)20-24. - 科研获奖信息
- [1] 超细贝氏体钢制造技术及在关键零部件中的应用,2017年国家技术发明二等奖,排名2/6
[2] 铁路轨道用高锰钢抗超高应力疲劳和磨损技术及应用,2020年国家技术发明二等奖,排名5/6
[3] 铁路辙叉用高品质钢及其制造关键技术,2016年河北省技术发明一等奖,排名2/6
[4] 超淬透性高端轴承钢热加工关键技术研究及应用,2022年,机械工业科学技术奖 科技进步二等奖,排名5/10
[5] 大功率风电机组用轴承钢关键技术开发,2017年湖北省科技进步二等奖,排名10/10
[6] 河北冶金青年科技奖,2021年,排名1/1
[7] 洛阳LYC轴承有限公司科技进步奖(三等),2020年,排名2/7
[8] 2014年获得河北省优秀博士论文
[9] 2012年获得首届博士研究生国家奖学金 - 社会信息
- 社会兼职信息
- 1、中国金属学会材料科学分会 第八届委员会委员
2、中国轴承工业协会技术委员会第七届材料学部 委员
3、河北省机械工程学会热处理委员会第七届管理委员会 委员
4、CSTM金属磨损控制与成型技术委员会 委员
5、《精密成形工程》 期刊通讯编委
6、《钢铁研究学报》 青年编委
7、《Journal of Iron and Steel Research International》 青年编委,SCI
8、《特殊钢》 青年编委
9、《Metals》Member of Editorial Board (编委),SCI
10、《Frontiers in Materials-Structural Materials》,Review Editor,SCI
11、《Frontiers in Metals and Alloys - Physical Metallurgy》,Review Editor,SCI
12、《钢铁》青年编委 - 荣誉称号
- 1、2018年第三批“河北省青年拔尖人才”
2、2019年河北省第八批省管优秀专家
3、2020年河北省冶金行业青年学术英才
4、2022年河北青年五四奖章 - 学习工作简历
- 2020.12-今 燕山大学机械工程学院 冶金机械系 教授 博士生导师
2016.12-2020.12 燕山大学机械工程学院 冶金机械系 副教授
期间2018.6-9 英国剑桥大学University of Cambridge,访问学者
2019.9-12 香港大学,访问学者
2013.6-2016.12 燕山大学机械工程学院 冶金机械系 讲师
期间 2015.5 澳大利亚新南威尔士大学(UNSW),访问学者
2008.9-2013.6 燕山大学材料科学与工程学院 材料学专业 硕博连读 获得工学博士学位
2004.9-2008.7 西安科技大学 应用化学专业 获得理学学士学位
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联系电话:0335-8057031 传真:0335-8074783 电子信箱:mec@ysu.edu.cn