ENGLISH
机构人员
机构设置
知名学者
专家委员会
学术梯队(含导师信息)

杨荃
研究员、博士生导师
国家板带生产先进设备工程技术研究中心 主任
办公地点: 北京科技大学昌平创新园南楼211
办公电话: 010-62332598-6611
传    真: 62332947
电子邮件: yangquan@nercar.ustb.edu.cn

科研方向:
主要研究方向是工业产线的在线无损检测与控制技术、数字孪生3D可视化技术和智能无人化系统等,研究成果已在板带轧机运行状态监测和产品质量控制方面取得成功应用,对钢铁企业和有色金属加工企业的科技进步做出贡献。已培养毕业博士、硕士研究生70多名。
社会职务:
曾任第五届、第六届国务院学位委员会学科评议组成员(机械工程)
简历
1982.9-1986.7 北京钢铁学院机械系本科生,学士学位。
1986.9-1992.7 北京科技大学机械工程学院研究生,博士学位。
2015.11-2016.12 美国西北大学机械系,访问学者。
1992.7- 北京科技大学高效轧制国家工程研究中心、冶金工程研究院、国家板带生产先进装备工程技术研究中心、工程技术研究院教师。北京科技大学第七届学术委员会委员。
著作论文
1. Zhao J W, Wang X C, Yang Q, et al. Mechanism of lateral metal flow on residual stress distribution during hot rolling[J]. Journal of Materials Processing Technology. 2020, 288: 116838.
2. Zhao J W, Wang X C, Yang Q, Wang Q N, Liu C, Song G Y. High precision shape model and presetting strategy for strip hot rolling. Journal of Materials Processing Technology, 2019, 265: 99-111.
3. Zhao J W, Yang Q, Wang X C. Physical modeling of flow stress during the hot deformation of Nb steels. Materials Science Forum. 2019, 944: 247-253.
4. Song G Y, Wang X C, Yang Q, et al. Optimization technology of roll contours during skin-pass rolling process of hot-rolled strip. Materials Science Forum, 2019, 944: 237-246.
5. Song G Y, Wang X C, Yang Q. Study on mathematical model of work roll wear in skin-pass rolling of hot steel strip. International Journal of Advanced Manufacturing Technology, 2018, 97(5-8): 2675-2686.
6. Song G Y, Yang Q, Wang X C. Research on wear evolution laws of the work rolls during hot temper rolling process. Journal of Failure Analysis and Prevention, 2018, 18(4): 912-919.
7. Dong F, Wang X, Yang Q, et al. In-situ measurement of Ti-6Al-4V grain size distribution using laser-ultrasonic technique. Scripta Materialia, 2018, 154: 40-44.
8. Zhang Y, Wang X, Yang Q, et al. Characterization of mean grain size of interstitial-free steel based on laser ultrasonic. Journal of Materials Science, 2018, 53(11): 8510-8522.
9. Zhang Y J, Wang X C, Yang Q, et al. Nondestructive Evaluation Method of Average Grain Size in TWIP Steel by Laser Ultrasonic. Materials Science Forum, 2018, 913:324-330.
10. Dong F, Yang Q, Krishnaswamy S. Grain size distribution measurement of Ti-6Al-4V plate using laser-ultrasonics. Acoustical Society of America Journal, 2017, 142(4):2546-2546.
11. Dong Feng, Wang Xiaochen, Yang Quan, et al. Directional dependence of aluminum grain size measurement by laser-ultrasonic technique. Materials characterization, 2017, 129: 114-120.
12. Anmin Yin , Xiaochen Wang, Christ Glorieux, Quan Yang, Feng Dong, Fei He, Yanlong Wang, Jan Sermeus, Tom Van der Donck, Xuedao Shu. Texture in steel plates revealed by laser ultrasonic surface acoustic waves velocity dispersion analysis. Ultrasonics. 2017, 78(7): 30-39.
13. YIN Anmin, YANG Quan, SHU Xuedao, WANG Xiaochen, HE Fei. Determination of Grain Size in Ultra-Low Carbon Steel Sheets By Laser Ultrasonic Technique. 3nd International Symposium on Advanced Rolling Equipment Technologies (ISARET 2015). Qinhuangdao, Hebei: Advances in Rolling Equipment and Technologies III. 2015.
14. HE Fei, YIN An-min, YANG Quan. Grain Size Measurement in Steel by Laser Ultrasonics Based on Time Domain Energy. Materials Transactions. 2015,56(6):808-812.
15. Anmin Yin, Quan Yang, Fei He, Xiaochen Wang, Christ Glorieux. Textural Through-Thickness Inhomogeneity of Interstitial-Free Steel and Its Influence on Plastic Anisotropy Prediction. Materials Transactions. 2014, 55(12):1847-1851.
16. Haiyu WANG, Quan YANG, et al. Study and Application of Camber Control Model of Intermediate Slab in Rough Rolling. Journal of Iron and Steel Research International, 2014, 21(9): 817-822
17. Xiaochen WANG, Quan YANG, Zhengyi JIANG and Jinwu XU. Research on the Improvement Effect of High Tension on Flatness Deviation in Cold Strip Rolling. Steel Research International, 2014, 85(11): 1560-1570.
18. Xiaochen WANG, Quan YANG, Ruijun LIU, Jie MENG, Defu GUO, Youzhao SUN. Temperature Field Analysis of Intermediate Slab in Hot Coil Box based on ANSYS Finite Element Method. Journal of University of Science and technology Beijing, 2013, 35(4):454-458.
19. Anmin Yin, Quan Yang, Fei He, Huifang Xiao. Determination of Grain Size in Deep Drawing Steel Sheet by Laser Ultrasonics. Materials Transactions. 2014, 55(7):994-997.
20. HE Fei, YIN An-min, YANG Quan. Research on Online Texture Measurements in Metal Rolling Field. J. Shanghai Jiaotong Univ. (Sci.), 2012, 17(6): 690-696.
21. Anmin Yin, Quan Yang, Xiaochen Wang, Fei He, Youzhao Sun. On-Line Determination of Texture in Deep Drawing Steel Sheet by Two-Dimensional X-ray Diffraction. 2nd International Symposium on Advanced Rolling Equipment Technologies (ISARET 2012). Beijing: Advances in Rolling Equipment and Technologies II. 2012.
22. Anmin YIN, Quan YANG, Xiaochen WANG, Fei HE, Youzhao SUN. On-line determination of texture in deep drawing steel sheet by two-dimensional X-ray diffraction. Advanced Materials Research, 2012, 572:322-327.
23. Quan YANG, Yan ZHANG, Chengwei LI, et al. New methods of quality control systems on strip rolling mills. Advanced Materials Research, 2012, 572:37-42.
24. Yan ZHANG, Quan YANG, et al. Deviation Prevention Ability of Rollers in Continuous Annealing Furnace and Application. Journal of Iron and Steel Research (International), 2012, 125(12):1-5.
25. Xiaochen WANG, Quan YANG. Research on Asymmetric Shape Control Character and Generalized Overall Shape Control Strategy for Universal Crown Mill. Journal of Mechanical Engineering, 2012, 48(4):58-65.
26. Yun ZHANG, Quan YANG, et al. Control strategies of asymmetric strip shape in six-high cold rolling mill, Journal of Iron and Steel Research (International), 2011, 18(9):27-32.
27. Yang ZHAO, Quan YANG, et al. Precision Plate Plan View Pattern Predictive Model, Journal of Iron and Steel Research (International), 2011, 18(11):26-30.
28. Xiaochen WANG, Quan YANG, Xiaozhong DU, Zhengyi JINAG. Allowable variation of cold-rolled strip transverse profiles in high tension. International Journal of Minerals, Metallurgy and Materials, 2010, 17(5):608-616.
29. Xiaozhong DU, Quan YANG, et al. Optimization of short stroke control preset for automatic width control of hot rolling mill, Journal of Iron and Steel Research (International), 2010, 17(6):16-20.
30. Xiaozhong DU, Quan YANG, et al. Strip profile control in asymmetrical rolling by FEM modeling. Advanced Materials Research, 2010, 97-101:2955-2960.
31. Aili WANG, Quan YANG, et al. Study on the formulas of the dog-bone shape of edger rolling in hot strip mill. Advanced Materials Research, 2010, 97-101:2871-2875.
32. Yun ZHANG, Quan YANG, et al. Analysis of cold-rolled strip profile in UCM mill by finite element method. Key Engineering Materials, 2010, 443:21-26.
33. Xianglong YU, Quan YANG, Zhengyi JIANG. Analysis of plate bending in coilbox by finite element method. Key Engineering Materials, 2010, 443:146-151.
34. Peng PENG, Quan YANG. Generalized Shape and Gauge Decoupling Load Distribution Optimization Based on IGA for Tandem Cold Mill. Journal of Iron and Steel Research (International), 2009, 16(2):30-34.
35. Xiaodong WANG, Quan YANG, Anrui HE. Calculation of thermal stress affecting strip flatness change during run-out cooling in hot steel strip rolling. Journal of Materials Processing Technology, 2008, 207(1-3):130-146.
36. Xiaozhong DU, Quan YANG, et al. A numerical simulation of strip profile in 6-high cold rolling mill. International Journal of Modern Physics B, 2008, 22(31-32):5655-5660.
37. Xiaodong WANG, Quan YANG, Anrui HE. Renzhong WANG. Comprehensive contour prediction model of work roll used in on-line strip shape control model during hot rolling. Ironmaking & Steelmaking, 2007, 34(4):303-311.
获得奖励
1. 国家科技进步一等奖1项
2. 国家科技进步二等奖1项
3. 冶金工业部科技进步一等奖1项、三等奖1项
4. 教育部科技进步一等奖1项
5. 冶金科学技术奖一等奖1项、二等奖1项
科研项目
1.冷连轧机组来料质量判定与预控系统,2019-2021
2.冷轧3D可视化系统,2019-2020
3.热轧超薄规格板带钢开发,2019-2021
4.热轧机架间带钢跑偏检测,2018-2020
5.基于激光超声的低合金高强钢晶粒尺寸与分布特性检测关键技术研究,2018-2020
6.全流程硅钢断面质量稳定性攻关,2017-2020
7.1580热连轧高强钢板形攻关,2016-2017
8.1580热连轧薄规格断面和板形攻关,2014-2016
9.精密带钢产品质量优化与关键技术装备研发(2015BAF30B00),2015-2017
10.高性能板带产品在线质量测控装备和关键技术(2012BAF04B02),2012-2015
11.汽车板板形缺陷全流程控制研究,2012-2014
12.改善硅钢产品同板差质量,2011-2014
13.1000mm五机架冷连轧机核心工艺模型及控制系统开发,2011-2012
14.压延电子铜箔生产设备的消化和技术创新,2010-2015
15.钛及钛合金板带热轧冷轧工艺规程,2009-2011
16.二硅钢酸轧机组高精度断面和边降控制技术的研究,2007-2009
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电话:010-62332598 传真:010-62332947 通讯地址:北京市海淀区学院路30号,100083
电子信箱:bkdgyy@ustb.edu.cn