本研究所以轨道交通金属材料为研究特色,结合轨道交通行业发展的重大需求,围绕轨道交通关键部件材料开发和内在质量控制等方面进行深入系统研究。所内主要实验设备有:透射电镜、扫描电镜、金相显微镜、淬火膨胀仪、高频疲劳试验机、超高周疲劳试验机、旋转弯曲疲劳试验机、多功能滚动接触疲劳摩擦磨损试验机、慢拉伸应力腐蚀试验机、材料万能拉伸试验机、冲击试验机、硬度计、各种规格箱式热处理炉、金相磨、抛机等。本所人员包括中国工程院院士1名,教授3人,副教授2人,讲师1人和实验师2人以及27名博士生和硕士生,目前承担国家自然科学基金、国家重点研发计划、科技部“973” “及铁道部重大项目等多项科研任务。
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1. 研究先进钢铁材料的合金化成分设计、相变机理、强韧化机制、热处理技术及其服役行为等基础理论和关键技术; 2. 研究长寿命高强韧汽车用钢、超高强汽车用钢及其多相组织设计、调控技术与服役行为; 3. 开发先进钢铁材料系列产品;开展其在轨道交通道岔、钢轨、车轮、车轴、紧固件、弹簧等方面的产业化应用研究。
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1 白秉哲、谭谆礼、高古辉等“高性能贝氏体/马氏体复相高强钢的研发与应用”,冶金科学技术进步二等奖,2018.8.9; 2 惠卫军,陈思联,杨伟宁等“汽车锻件用高性能非调质钢技术” 冶金科学技术奖一等奖,2012.6; 3 苏世怀、于同仁、惠卫军等“免后续热处理节能型冷镦钢产品开发及应用技术” 冶金科学技术二等奖,2014.8; 4 唐新民,熊春英,董瀚,刘淑英,惠卫军等“高强度钢和非调质钢在N系列车(商用车)上的应用研究”中国汽车工业科学技术三等奖,2016.10; 5 戴观文、郝彦英、惠卫军、等“汽车用涨断连杆非调质钢的研发”河北省科学技术进步三等奖,2016; 6 惠卫军等“工程机械涨紧机构弹簧钢的研究与开发” 石家庄市科学技术一等奖,2017.11。
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1 国家自然科学基金“面上”: 残余奥氏体对BQ&P高强钢超高周疲劳行为的影响及其机理研究, 2018-2021; 2 国家自然科学基金“联合基金项目”: 高速列车齿轮箱轴承服役性能演化与疲劳可靠性研究, 2019-2022; 3 国家自然科学基金“联合基金项目”: 基于“干扰贝氏体转变”工艺的纳米结构贝氏体钢及其组织调控机理, 2018-2020; 4 北京市自然基金“面上”: 基于“干扰贝氏体转变”工艺的高强塑汽车板用钢及其塑性变形机制, 2017-2019; 5 国家自然科学基金"青年基金": 无碳化物贝/马复相高强钢基于Q-P-T工艺的强塑性改善及其机理研究, 2014-2016; 6 国防973计划项目:XX钢的高洁净度冶炼与性能精细调控, 2015-01-01--2019-12-31; 7 国家重点研发计划项目:低成本高强韧非调质钢关键技术开发与应用,2016-07-01-2020-12-31; 8 国家重点研发计划项目:海水淡化关键设备用新材料开发与应用,2016-07-01-2021-06-01; 9 国家重点研发计划项目:材料基因工程—高端装备典型构件用特殊钢的示范应用研究,2017-07-2021-06; 10 国家重点研发计划项目:高铁车轴用钢低温韧化及长疲劳寿命化机理研究,2017-07-2021-06; 11 国家重点研发计划项目:耐候桥梁钢耐蚀机理及服役性能研究,2017-07-2021-06; 12 国家重点研发计划: 重载铁路耐磨钢轨钢的组织性能关系及损伤机理研究, 2017-2021; 13 科技部“973”: 高性能新型贝氏体轮轨材料原型研究, 2015-2019; 14 铁路总公司(原铁道部): 牵引供电前瞻性技术研究-纤维增强铜基复合材料接触网导线开发研究, 2014-2017; 15 国家973项目:高性能新型贝氏体轮轨材料原型研究,2015.1-2019.10; 16 铁道部科技司:U20Mn2SiCrNiMo贝氏体钢轨及焊接性能优化研究,2015.6-2016.12; 17 铁道部科技司: 既有线开行大轴重列车关键技术研究—贝氏体钢轨及道岔用贝氏体钢部件研发和应用—贝氏体钢轨基础理论研究,2012.6--2014.6; 18 国家重点研发计划-任务: 高铁轴承钢大尺寸非金属夹杂物评估及疲劳性能研究, 2018-2022; 19 国家重点研发计划: 高端装备典型构件用特殊钢的示范应用研究, 2017-2021; 20 红果园国家级"四总部": 陆军机动平台重载传动齿轮制造基础研究, 2015-2019; |
主要论文: 1. Weijun Hui, Silian Chen, Yongjian Zhang, Chengwei Shao, Han Dong. Effect of vanadium on the high-cycle fatigue fracture properties of medium-carbon microalloyed steel for fracture splitting connecting rod. Materials and Design, 2015, 66(2):227-234 2. Weijun Hui, Yongjian Zhang, Chengwei Shao, Silian Chen, Xiaoli Zhao, Han Dong. Microstructural effects on high-cycle fatigue properties of microalloyed steel 38MnVS. Mater Sci Eng A, 2015, 640(7):147-153 3. Weijun Hui, Silian Chen, Chengwei Shao, Yongjian Zhang, Han Dong. Hot Deformation Behavior of Vanadium-microalloyed Medium-carbon Steel for Fracture Splitting Connecting Rod. J of Iron and Steel Research International, 2015, 22(7):615-621 4. 陈思联,邵成伟,惠卫军,董瀚,郝彦英. 胀断连杆用高钒中碳非调质钢的动态再结晶行为. 钢铁研究学报,2015, 27(1):73-78. 5. 陈思联,赵晓丽,惠卫军,戴观文,董瀚. 胀断连杆用中碳非调质钢的析出强化行为. 钢铁,2015, 50(7):77-83. 6. 陈思联,惠卫军,邵成伟,赵晓丽,董瀚. 控制冷却对中碳高钒非调质钢组织性能的影响. 钢铁,2015, 50(8):77-82. 7. Zhao P, Cheng C, Gao G, Hui W, Misra R D K, Bai B, Weng Y. The potential significance of microalloying with niobium in governing very high cycle fatigue behavior of bainite/martensite multiphase steels. Mater Sci Eng A, 2016, 650(1):438-444 8. Weijun Hui, Yongjian Zhang, Xiaoli Zhao, Chao Zhou, Kaizhong Wang, Wei Sun, Han Dong. Very high cycle fatigue properties of Cr-Mo low alloy steel containing V-rich MC type carbides. Materials Science & Engineering A, 2016, 651(1:10):311-320 9. Weijun Hui, Yongjian Zhang, Xiaoli Zhao, Chengwei Shao, Kaizhong Wang, Wei Sun, Tongren Yu. Influence of cold deformation and annealing on hydrogen embrittlement of cold hardening bainitic steel for high strength bolts. Materials Science & Engineering A, 2016, 662(4:26):528-536 10. Weijun Hui, Yongjian Zhang, Chengwei Shao, Silian Chen, Xiaoli Zhao, Han Dong. Enhancing the mechanical properties of vanadium-microalloyed medium carbon steel by optimizing post-forging cooling conditions. Materials and Manufacturing Processes, 2016, 31(6):770-775 11.Weijun Hui, Chengwei Shao, Yongjian Zhang, Silian Chen, Xiaoli Zhao, Han Dong. Influence of vanadium on fracture splitting property of medium carbon steel. Journal of Iron and Steel Research International, 2016; 23(5); 475-483 12. Weijun Hui, Yongjian Zhang, Chengwei Shao, Silian Chen, Xiaoli Zhao, Han Dong. Effect of cooling rate and vanadium content on the microstructure and hardness of medium carbon forging steel. Journal of Materials Science & Technology, 2016; 32(6):545-551 13. Weijun Hui, Yongjian Zhang, Xiaoli Zhao, Na Xiao, Fangzhong Hu. High cycle fatigue behavior of V-microalloyed medium carbon steels: a comparison between bainitic and ferritic-pearlitic microstructures. International Journal of Fatigue, 2016; 91(10):232-242 14. Weijun Hui, Chao Zhou, Yongjian Zhang, Xiaoli Zhao, Han Dong. Very high cycle fatigue properties of high strength spring steel 60SiCrV7. Fatigue & Fracture of Engineering Materials & Structures, 2016; 39(9):1081-1091 15. Weijun Hui, Haixu Zhang, Yongjian Zhang, Xiaoli Zhao, Chengwei Shao. Effect of nickel on hydrogen embrittlement behavior of medium-carbon high strength steels. Materials Science & Engineering A; 2016; 674(9:30): 615-625 16. 巫宇峰,惠卫军,陈思联,雍岐龙,曹磊,赵馨月. 不同钒含量中碳非调质钢的奥氏体晶粒长大行为. 材料热处理学报,2016, 37(1):99-105[EI] 17. 巫宇峰,惠卫军,陈思联,徐乐,雍岐龙,周世同. 钒对中碳非调质钢组织性能的影响. 钢铁研究学报,2016, 28(11):56-62,73 18. Weijun Hui, Zhibao Xu, Yongjian Zhang, Xiaoli Zhao, Chengwei Shao, Yuqing Weng. Hydrogen embrittlement behavior of high strength rail steels: A comparison between pearlitic and bainitic microstructures. Materials Science & Engineering A, 2017; 704(9:17):199-206. 19. Weijun Hui, Chengwei Shao, Yongjian Zhang, Xiaoli Zhao, Yuqing Weng. Microstructure and mechanical properties of medium Mn steel containing 3%Al processed by warm rolling. Materials Science & Engineering A, 2017; 707(11):501-510 20. Weijun Hui, Na Xiao, Xiaoli Zhao, Yongjian Zhang, Yufeng Wu. Effect of vanadium on dynamic continuous cooling transformation behavior of medium-carbon forging steels. Journal of Iron and Steel Research International, 2017;24(6):641-648 21. Zhibao Xu, Weijun Hui, Zhanhua Wang, Yongjian Zhang, Xiaoli Zhao, Xiuming Zhao. Mechanical properties of a microalloyed bainitic steel after hot forging and tempering. Journal of Iron and Steel Research International, 2017; 24(11):1085-1094. 22. Xiaoli Zhao, Yongjian Zhang, Chengwei Shao, Weijun Hui, Han Dong. Thermal Stability of Retained Austenite and Mechanical Properties of Medium-Mn Steel during Tempering Treatment. Journal of Iron and Steel Research International, 2017; 24(8):830-837 23. Chengwen Shao, Weijun Hui, Yongjian Zhang, Xiaoli Zhao, Yuqing Weng. Microstructure and mechanical properties of hot-rolled medium-Mn steel containing 3% aliminum. Materials Science & Engineering A, 2017; 682(1): 45-53 24. Chengwei Shao, Weijun Hui, Yongjian Zhang, Xiaoli Zhao, Yuqing Weng. Effect of intercritical annealing time on hydrogen embrittlement of warm-rolled medium Mn steel. Materials Science & Engineering A, 2018; 726(5):320-331. 25. 赵晓丽,张永健,邵成伟,惠卫军,董瀚. 两相区退火处理冷轧0.1C-5Mn中锰钢的氢脆敏感性. 金属学报,2018; 54(7):1031-1041. 26. 赵晓丽,张永健,黄海涛,惠卫军,王存宇,董瀚. 温轧及逆转变退火对中锰钢组织和力学性能的影响. 钢铁研究学报, 2018, 30(8):642-649. 27. 赵晓丽,张永健,黄海涛,惠卫军,董瀚. 回火对冷轧后退火处理中锰钢0.1-5Mn氢脆敏感性的影响. 材料热处理学报, 2018, 39(10):36-45. 28. Yongjian Zhang, Zhibao Xu, Xiaoli Zhao, Guhui Gao, Weijun Hui, Yuqing Weng. Hydrogen embrittlement behavior of high strength bainitic rail steel: effect of tempering treatment. Engineering Failure Analysis, 2018; 93(11):100-110. 29. Yongjian Zhang, Weijun Hui, Xiaoli Zhao, Cunyu Wang, Han Dong. Effects of hot stamping and tempering on hydrogen embrittlement of a low-carbon boron-alloyed steel, Materials, 2018, 11(12), 2507. 30. Yongjian Zhang, Weijun Hui, Xiaoli Zhao, Cunyu Wang, Wenquan Cao, Han Dong. Effect of reverted austenite fraction on hydrogen embrittlement of TRIP-aided medium Mn steel (0.1C-5Mn). Engineering Failure Analysis, 2019, 97(3):605-616 31. Yongjian Zhang, Weijun Hui, Jiaojiao Wang, Ming Lei, Xiaoli Zhao. Enhancing the resistance to hydrogen embrittlement of Al-containing medium-Mn steel through heavy warm rolling. Scripta Materialia, 2019, 165(5): 15-19 32. Yongjian Zhang, Weijun Hui, Jiaojiao Wang, Chengwei Shao, Xiaoli Zhao. Enhancing the mechanical properties of Al-containing medium Mn steel through warm rolling and intercritical annealing. Steel Research International, 2019, 90(3):1800412. 33. Yongjian Zhang, Chengwei Shao, JiaoJiao Wang, Xiaoli Zhao, Weijun Hui. Intercritical annealing temperature dependence of hydrogen embrittlement behavior of cold-rolled Al-containing medium-Mn steel. International Journal of Hydrogen Energy, 2019, 44(8):22355-22367 34. 邵成伟,惠卫军,张永健,赵晓丽,翁宇庆. 一种新型高强度高塑性冷轧中锰钢的组织和力学性能. 金属学报,2019, 55(2):191-201. 35. 王占花,惠卫军,张永健,张念,郑文超. 硫化物形貌对非调质钢力学性能各向异性的影响. 钢铁研究学报, 2019, 31(3):327-335. 36. 王占花,惠卫军,张永健,郝彦英,戴观文. 控轧控冷中碳非调质钢的高周疲劳性能. 钢铁, 2019, 54(3):69-75. 37. Na Xiao, Weijun Hui, Yongjian Zhang, Xiaoli Zhao, Ying Chen, Han Dong. High-Cycle Fatigue Behavior of Vacuum-Carburized 20Cr2Ni4 Steel with Different Case Depths. Journal of Materials Engineering and Performance, 2019,28(6):3413-3422 38. Weijun Hui, Zhanhua Wang, Zhibao Xu, Yongjian Zhang, Xiaoli Zhao. Hydrogen embrittlement of a microalloyed bainitic forging steel. Journal of Iron and Steel Research International, 2019, 26(9): 1011-102。 39. Zhanhua Wang, Weijun Hui, Zhen Chen, Yongjian Zhang, Xiaoli Zhao. Effect of vanadium on microstructure and mechanical properties of bainitic forging steel. Materials Science & Engineering A, 2020 40. Na Xiao, Weijun Hui, Yongjian Zhang, Xiaoli Zhao, Ying Chen, Han Dong. High cycle fatigue behavior of a low carbon alloy steel: The influence of vacuum carburizing treatment. Engineering Failure Analysis, 2020, 104215 41. 谭谆礼*,王凯凯,白秉哲,刘东雨. 钙对空冷无碳化物贝氏体 马氏体钢25Mn2SiCrCa 组织性能的影响. 材料热处理学报, 2014,35(6),132-136. 42. Zhunli Tan*, Kaikai Wang , Guhui Gao, Xiaolu Gui, Bingzhe Bai. Mechanical properties of steels treated by Q-P-T process incorporating carbide-free-bainite martensite multiphase microstructure. Journal of iron and steel research international.2014,21(2),191-196. 43. Zhunli Tan*, Baifeng An, Guhui Gao, Xiaolu Gui, Bingzhe Bai. Analysis of softening zone on the surface of 20Mn2SiCrMo bainitic railway switch. 2015,47(1),111-116. 44. Zhunli Tan*, Bai Lishuo, BaiBingzhe, ZhaoBing, Zhiqiang Li, Hongliang Hou. Fabrication of lattice truss structures by novel super-plastic forming and diffusion bonding process in a titanium alloy. Materials and design.2016,92(2),724-730. 45. Kaikai Wang, Zhunli Tan*,Guhui Gao, Xiaolu Gui , R.DK. Misra, Bingzhe Bai. Ultrahigh strength-toughness combination in Bainitic rail steel: Thedetermining role of austenite stability during tempering. Materials Science & Engineering A.662 (2016) 162–168. 46. Wang K , Tan Z , Gu K , et al. Effect of deep cryogenic treatment on structure-property relationship in an ultrahigh strength Mn-Si-Cr bainite/martensite multiphase rail steel[J]. Materials Science and Engineering: A, 2017, 684:559-566. 47. Guhui Gao*, Han Zhang*, Xiaolu Gui, Zhunli Tan, Bingzhe Bai, Yuqing Weng. Enhanced strain hardening capacity in a lean alloy steel treated by a “disturbed” bainitic austempering process. Acta Materialia. 101 (2015) 31-39 48. Guhui Gao*, Han Zhang*, XiaoluGui, Ping Luo, ZhunliTan, BingzheBai. Enhanced ductility and toughness in an ultrahigh-strength Mn-Si-Cr-C steel: The great potential of ultrafine filmy retained austenite. Acta Materialia. 76 (2014) 425-433 49. Guhui Gao* Baoxiang Zhang, Cheng Cheng, Ping Zhao, Han Zhang, Bingzhe Bai. Very high cycle fatigue behaviors of bainite/martensite multiphase steel treated by quenching-partitioning-tempering process. International Journal of Fatigue, 92 (2016) 203-210. 50. Guhui Gao*, Han Zhang, Xiaolu Gui, Zhunli Tan, Bingzhe Bai. Tempering behavior of ductile 1700MPa Mn-Si-Cr-C steel treated by quenching and partitioning process incorporating bainite formation, Journal of Materials Science and Technology, 31 (2015) 199-204 51. Guhui Gao, Xiaolu Gui, Baifeng An, Zhunli Tan, Bingzhe Bai*, Yuqing Weng. Effect of finish cooling temperature on microstructure and low temperature toughness of Mn-series ultralow carbon high strength low alloyed steel, Acta Metallurgica Sinica, 51 (2015) 21-30 52. Guhui Gao*, Han Zhang, Zhunli Tan, Wenbo Liu, Bingzhe Bai. A carbide-free bainite/ martensite/ austenite triplex steel with enhanced mechanical properties treated by a novel quenching–partitioning–tempering process, Materials Science and Engineering A, 559 (2013) 165-169 53. Haoran Guo, Guhui Gao*, Xiaolu Gui, R.D.K. Misra, Bingzhe Bai. Structure-property relation in a quenched-partitioned low alloy steel involving bainite transformation, Materials Science and Engineering A, 667 (2016) 224-231 54. Gao G , An B , Zhang H , et al. Concurrent enhancement of ductility and toughness in an ultrahigh strength lean alloy steel treated by bainite-based quenching-partitioning-tempering process[J]. Materials Science & Engineering A, 702(2017):104-112. 55. Gao G , Gao B , Gui X , et al. Correlation between microstructure and yield strength of as-quenched and Q&P steels with different carbon content (0.06–0.42 wt%C)[J]. Materials Science and Engineering: A, 2019, 753:1-10. 56. Gao G, Xu Q, Guo H, et al. Effect of inclusion and microstructure on the very high cycle fatigue behaviors of high strength bainite/martensite multiphase steels[J]. Materials Science and Engineering: A, 2019, 739: 404-414. 57. Gao G, Guo H, Gui X, et al. Inverted multi-step bainitic austempering process routes: Enhanced strength and ductility[J]. Materials Science and Engineering: A, 2018, 736: 298-305. 58. Xiaolu Gui, Kaikai Wang, Guhui Gao*, R.D.K. Misra, Zhunli Tan, Bingzhe Bai. Rolling contact fatigue of bainitic rail steels: The significance of microstructure, Materials Science and Engineering A, 657 (2016) 82-85 59. Xiaolu Gui, Baoxiang Zhang, Guhui Gao*, Ping Zhao, Bingzhe Bai, Yuqing Weng. Fatigue behavior of bainite/martensite multiphase high strength steel treated by quenching-partitioning-tempering process, Acta Metallurgica Sinica, 52 (2016): 1036-1044 60. Gui, Xiaolu, Gao, Guhui, Guo, Haoran, Zhao, Feifan, Tan, Zhunli, & Bai, Bingzhe. . Effect of bainitic transformation during bq&p process on the mechanical properties in an ultrahigh strength mn-si-cr-c steel. Materials Science and Engineering: A, 684(1): 598-605. 61. Ping Luo, Guhui Gao*, Han Zhang, Zhunli Tan, R.D.K. Misra, Bingzhe Bai. On structure-property relationship in nanostructured bainitic steel subjected to the quenching and partitioning process, Materials Science and Engineering A, 661 (2016) 1-8 62. Ping Zhao, Guhui Gao*, R.D.K. Misra*, Bingzhe Bai. Effect of microstructure on the very high cycle fatigue behavior of a bainite/martensite multiphase steel, Materials Science and Engineering A, 630 (2015) 1-7 63. P. Zhao*, B. Zhang, C. Cheng, R.D.K. Misra*,G. Gao*, B. Bai, Y. Weng. The significance of ultrafine film-like retained austenite in governing very high cycle fatigue behavior in an ultrahigh-strength Mn-Si-Cr-C steel,Materials Science and Engineering A, 645 (2015) 116-121 64. Guhui Gao*, Chun Feng, Bingzhe Bai. Effect of Nb on the microstructure and Mechanical properties of water-quenched FGBA/BG steels, Journal of Materials Engineering and Performance, 21 (2012) 345-352 65. G. H. Gao*, H. Zhang, B.Z. Bai. Improved properties of Mn series ultralow carbon steel with ultrafine bainitic structure, Materials Science and Technology, 28 (2012) 829-836 66. Guhui Gao, Han Zhang, Bingzhe Bai*. Effect of tempering temperature on low temperature impact toughness of a low carbon Mn-series bainitic steel, Acta Metallurgica Sinica, 47 (2011) 513-519 67. Ping Zhao, Shuangshou Li*, Guhui Gao, Bingzhe Bai, R.D.K. Misra*. Mechanical behavior of carbon nanotube-reinforced Mg–Cu–Gd–Ag bulk metallic glasses, Materials Science and Engineering A, 641 (2015) 116-122 68. Li J, Tan Z, Zhang M, et al. On the Significant Impact of Deformation Coupled with Cooling Rate during Thermo‐Mechanical Controlled Processing (TMCP) on Microstructure‐Property Relationship in 25Mn2Si2Cr High Strength Steel[J]. steel research international, 2019, 90(8): 1900134. 69. Li J, Tan Z, Zhang M, et al. Effect of Intercritical Austenitizing Temperature during Quenching–Intercritical Quenching–Tempering Process on Toughness of 25Mn2Si2Cr Bainitic Steel[J]. steel research international, 2019, 90(6): 1800573. 70. Gao B, Tan Z, Liu Z, et al. Influence of non-uniform microstructure on rolling contact fatigue behavior of high-speed wheel steels[J]. Engineering Failure Analysis, 2019, 100: 485-491. 71.Zhang M, Qiu J, Shi Z, et al. Serrated and stepped-like twin boundary of nano-sized extension twin in a deformed magnesium alloy[J]. Materials Letters, 2019, 236: 604-606. 72 Zhunli Tan*, Baifeng An, Guhui Gao, Xiaolu Gui, Bingzhe Bai. Analysis of softening zone on the surface of 20Mn2SiCrNiMo bainitic railway switch, Engineering Failure analysis, 47 (2015) 111-116 73. Bingzhe Bai*, Guhui Gao, Yankang Zheng, Zhigang Yang. Development of New type Mn-series bainitic steels in China, Journal of Iron and Steel Research, International, 18 (Supplement 1-1) (2011): 112-120 74. Hongsheng Fang, Guhui Gao*, Bingzhe Bai, Yankang Zheng, Zhigang Yang. The development of Mn-series bainitic steels in China, Materials Science Forum, 654 - 656 (2010): 57-61. 75. Wenbo Liu, Chi Zhang*, Zhigang Yang, Zhixin Xia, Guhui Gao, Yuqing Weng. Effect of surface nanocrystallization on microstructure and thermal stability of reduced activation steel, Acta Metallurgica Sinica, 49 (2013) 707-716
专 著: 1. 惠卫军,翁宇庆等. 《超细晶钢—钢的组织细化理论与控制技术》中的第3篇第一章“耐延迟断裂高强度马氏体钢”(p.409-466),冶金工业出版社,2003 2. 惠卫军、翁宇庆、董瀚 编著. 高强度紧固件用钢,冶金工业出版社,2009.8, 313页,38.5万字 3. 李守新,翁宇庆,惠卫军,杨振国. 高强度钢超高周疲劳性能—非金属夹杂物的影响. 冶金工业出版社,2010.5,150页, 17.9万字
主要专利: 1 惠卫军,董 瀚,陈思联,王毛球,翁宇庆. 耐延迟断裂性能优良的高强度螺栓钢.专利号:ZL 00105872.X,公开号:CN 1275632A 2 惠卫军,董 瀚,时 捷,翁宇庆. 耐延迟断裂性能和冷加工性能优良的高强度螺栓钢. 专利号:ZL 200410074410.7 3 惠卫军,张英建,陈思联,董瀚,包耀宗,时捷,王毛球,曹文全,徐乐. 一种胀断连杆用中碳非调质钢. 发明专利,专利号:ZL2010 1 0248516.X 4 惠卫军,张英建,陈思联,董瀚,包耀宗,时捷,王毛球,曹文全,徐乐. 一种胀断连杆用中碳非调质钢. 发明专利,专利号:ZL2010 1 0248516.X 5 桂晓露; 程骋; 高古辉; 白秉哲. 扫描电镜电子背散射多功能样品台,201520820847.4 6 高古辉,桂晓露,谭谆礼,张永健,惠卫军,白秉哲,翁宇庆. 一种超低磷贝氏体钢及其贝氏体钢轨,201410265139.9 7 高古辉; 安佰锋; 桂晓露; 谭谆礼; 白秉哲. 一种Mn-Si-Cr低碳贝氏体钢、钎杆及其制备方法 ,201510319377.8 8 谭谆礼; 高古辉; 桂晓露; 白秉哲. 一种贝氏体/马氏体/奥氏体复相高强钢的制备方法. 201310116403. 9 高古辉; 桂晓露; 白秉哲. 一种超高强度C-Al-Mn-Si系低密度钢及其制备方法. 201410069023.8
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联系人:惠卫军 电话 010-51685461 email: wjhui@bjtu.edu.cn
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