研究领域

先进钢铁材料 陶瓷基及金属基复合材料 材料先进成形工艺 材料表面技术及功能材料 载运工具运行安全理论与技术 载运工具及基础设施检测与控制 载运工具运行环境及先进动力技术 载运工具新材料科学与技术 先进设计与制造（专业学位）

专利 1. 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 2. 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 3. 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 4. 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. 201310116403.8 5.刘文利; 谭谆礼; 史庆志; 高古辉. 一种B-P-T钢管及制备方法. 201210270792.5 6. 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 7.雷富军; 白秉哲; 李孝德; 易汉平; 罗开双; 李戬; 裴有珍; 高古辉. 低成本增力丝杠用高性能金属材料及其制造方法 . 201110383894.3 科研项目 北京交通大学: 车轮用贝氏体钢研究与开发, 2014-2020 北京交通大学: 贝氏体高强抗震钢筋项目预研, 2019-2020 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 北京交通大学: 贝氏体铁路用钢的组织与性能优化, 2014-2020 国家自然科学基金"青年基金": 纵向预研基金-国家自然科学基金“青年”-KMA813003533, 2017-2019 国家自然科学基金“面上”: 纵向预研基金-国家自然科学基金“面上”- KMA312007533, 2017-2019 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 北京交通大学: 凿岩冲击钎杆用贝氏体钢的研发, 2017-2020 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 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 基本科研业务费: BQ&P处理复相钢强塑韧性协同改善机理研究, 2017-2018 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 北京交通大学: 贝氏体PSB1080精轧螺纹钢筋研发与性能稳定化研究, 2016-2019 北京交通大学: HXD3型电力机车轮对剥离失效分析研究及改善方案, 2016-2016 北京交通大学: 载体封装推力试验, 2016-2016 铁路总公司（原铁道部）: U20Mn2SiCrNiMo贝氏体钢轨及焊接性能优化研究, 2015-2016 北京交通大学: Zn-Al合金材料组织表征及优化, 2015-2017 科技部“973”: 高性能新型贝氏体轮轨材料原型研究, 2015-2019 北京交通大学: 贝氏体PSB830棒材性能稳定性研究, 2015-2016 基本科研业务费: 基于BQ-P-T工艺改善低合金贝氏体耐磨 铸钢抗冲击磨损性能的机理研究, 2015-2016 基本科研业务费: 实现BQP先进工艺淬火测控设备的研制, 2015-2016 基本科研业务费: 基于冷却及回火工艺控制改善贝氏体钢轨的滚动接 触疲劳性能及其机理研究, 2015-2017 基本科研业务费人才基金: “干扰式”贝氏体转变的理论基础及应用, 2015-2017 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 红果园(横): 钛合金三维点阵结构试验分析2, 2013-2017 北京交通大学: 贝氏体钢铸件组织性能的优化研究, 2014-2015 北京交通大学: 凿岩钎具用热轧圆钢的研制, 2014-2015 北京交通大学: 马钢动车组车轴用钢疲劳性能及热处理工艺优化研究, 2013-2014 基本科研业务费: 铌在高强度紧固件用钢中应用的基础研究, 2014-2015 基本科研业务费: 贝氏体钢轨的Q-P-T工艺处理及残余奥氏体调控, 2014-2015 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

近期论文

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论文/期刊 [1] 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 [2] 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 [3] 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. [4] 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 [5] 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 [6] 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 [7] 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 [8] 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 [9] 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 [10] 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 [11] 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 [12] 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 [13] 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 [14] 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 [15] 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 [16] 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 [17] Kaikai Wang, Zhunli Tan, Guhui Gao, Xiaolu Gui, R.DK. Misra, Bingzhe Bai. Ultrahigh strength-toughness combination in Bainitic rail steel The determining role of austenite stability during tempering. Materials Science & Engineering A 662 (2016) 162-168 [18] 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 [19] 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 [20] 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. [21] 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

学术兼职

《Journal of Alloys and Compounds 》（An1区）、《Materials Science and Engineering: A》（An2区）、《Journal of Mining and Metallurgy, Section B Metallurgy》（An3区）、《Kovoe Materialy-metallic Materials》（An4区）、《材料导报》（EI）特邀审稿人