(2) 近年发表2区及以上的部分学术论文
[1] Y.L. Zhou, Y. Yang, Y.B. Tan⁎, S. Xiang, F. Zhao, M. Yang, B.L. Wang.The microstructure evolution and strengthening mechanism of fine-grained Al-Mn alloy with nanoscale precipitates during cryorolling [J]. Materials Science and Engineering A, 2024, 903: 146680.
[2] Y.L. Zhou, Y. Yang, Y.B. Tan⁎, S. Xiang, M. Ma, F. Zhao, M. Yang. Recrystallization behavior and texture evolution during annealing of cryogenic-rolled 3003 aluminum alloy [J]. Journal of Alloys and Compounds, 2024, 997: 174818.
[3] Y.B. Tan⁎,M.T. Zeng, W.W. Zhang, Y. Yang, Y.L. Zhou, F. Zhao, S. Xiang. High-temperature tensile properties and strengthening mechanism of cryo-rolled MP159 superalloy strengthened by deformation nano-twins [J]. Materials Characterization, 2024, 209: 113692.
[4] S.S. Wu, Y. Yang, Y.B. Tan⁎, S. Xiang, Y.L. Zhou, M. Ma, F. Zhao, W. Shi. Variant selection of nanocrystalline α phase in metastable β TB8 titanium alloy via electric pulse treatment. Rare Metals, 2023, 42(8): 2781-2794.
[5] M.T. Zeng, Y. Yang, Y.B. Tan⁎, W.W. Zhang, S. Xiang, M. Ma, F. Zhao. Recrystallization behavior and texture evolution of cryo-rolled GH159 superalloy with an ultra-high strength [J]. Materials Characterization, 2023, 197:112656.
[6] W.W. Zhang, Y. Yang, Y.B. Tan⁎, S. Xiang, W. Shi, M. Ma.Hot corrosion behavior and mechanism of cryo-rolled MP159 superalloy with long rod-like γ′ phase [J]. Corrosion Science, 2022, 209: 110706.
[7] W.W. Zhang, Y. Yang, Y.B. Tan⁎, M.T. Zeng, M. Ma, S. Xiang, F. Zhao. Microstructure evolution and strengthening mechanisms of MP159 superalloy during room temperature rolling and cryorolling [J]. Journal of Alloys and Compounds, 2022, 908: 164667.
[8] Q.Y. Yang, Y.L. Zhou, Y.B. Tan*, S. Xiang, M. Ma, F. Zhao. Effects of microstructure, texture evolution and strengthening mechanisms on mechanical properties of 3003 aluminum alloy during cryogenic rolling [J]. Journal of Alloys and Compounds, 2021, 884: 161135.
[9] Q.Y. Yang, M. Ma, Y.B. Tan*,S. Xiang, F. Zhao, Y.L. Liang. Microstructure and texture evolution of TB8 titanium alloys during hot compression [J]. Rare metals, 2021, 40: 2917-2926.
[10]Y.B. Tan, Y.H. Ma, F. Zhao*, Hot deformation behavior and constitutive modeling of fine grained Inconel 718 superalloy [J]. Journal of Alloys and Compounds, 2018, 741: 85-96.
[11]Y.B. Tan*, L.Y. Ji, W.C. Liu, S. Xiang, F. Zhao, Y.L. Liang, Effect of hot deformation on α→β phase transformation in 47Zr-45Ti-5Al-3V alloy [J].Transactions of Nonferrous Metals Society of China, 2018, 28: 1947-1957.
[12] Y.B. Tan, W.C. Liu*, S. Xiang, F. Zhao, Y.L. Liang. Effect of β Grain Size on Stress-Induced Martensitic Transformation in β Solution-Treated 51.1Zr-40.2Ti-4.5Al-4.2V Alloy [J]. Metallurgical and Materials Transactions A, 2018, 49A: 6040-6045.
[13]Y.B. Tan, X.M. Wang, M. Ma, J.X. Zhang, W.C. Liu*, R.D. Fu, S. Xiang,A study on microstructure and mechanical properties of AA 3003 aluminum alloy joints by underwater friction stir welding [J]. Materials Characterization, 2017, 127: 41-52.
[14] Y.B. Tan, L.H. Yang, J.L. Duan, L.Y. Ji, W.C. Liu*, Studies on the kinetics of β→α phase transformation in 47Zr-45Ti-5Al-3V alloy under isothermal conditions by X-ray diffraction [J]. Materials Characterization, 2016, 112: 98-104.
[15] Y.B. Tan, L.Y. Ji, J.L. Duan, W.C. Liu*, J.W. Zhang, R.P. Liu, A study on the hot deformation behavior of 47Zr-45Ti-5Al-3V alloy with initial lamellar α structure [J]. Metallurgical and Materials Transactions A, 2016, 47(12): 5974-5984.
[16] Y.B. Tan, J.L. Duan, L.H. Yang, W.C. Liu*, J.W. Zhang, R.P. Liu, Hot deformation behavior of Ti-20Zr-6.5Al-4V alloy in the α+β and single β phase field [J]. Materials Science and Engineering A, 2014, 609: 226-234.
[17]Y.B. Tan, W.C. Liu*, H. Yuan, R.P. Liu, X.Y. Zhang, On the phenomenon of stress drop during hot deformation of ZrTiAlV alloy [J]. Metallurgical and Materials Transactions A, 2013, 44A: 5284-5288.
[18]Y.B. Tan, L.H. Yang, J.L. Duan, J.W. Zhang, W.C. Liu*, Effect of initial grain size on the hot deformation behavior of 47Zr-45Ti-5Al-3V alloy [J]. Journal of Nuclear Materials, 2014, 454: 413-420.
[19]Y.B. Tan, L.H. Yang, C. Tian, R.P. Liu, X.Y. Zhang, W.C. Liu*, Hot deformation behavior of ZrTiAlV alloy with a coarse grain structure in the β phase field [J]. Materials Science and Engineering A, 2013, 577: 218-224.
[20]Y.B. Tan, L.H. Yang, C. Tian, W.C. Liu*, R.P. Liu, X.Y. Zhang, Processing maps for hot working of 47Zr-45Ti-5Al-3V alloy [J]. Materials Science and Engineering A, 2014, 597: 171-177.
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(3)近年获得发明专利、科研(教学)成果奖及成果推广情况
[1] 刘文昌, 谭元标, 刘日平, 一种降低高强度锆合金锻造变形抗力的热加工方法, 2016年5月18日, 中国, 专利号:ZL2014102340544. (发明专利)
[2] 谭元标, 吴珊珊, 杨亚, 向嵩, 赵飞, 石维, 黄朝文, 曾梦婷, 具有梯度层α相组织的TB8钛合金棒材及其制备方法, 2022年8月22日, 中国, 专利号:ZL2022102382537.(发明专利)
[3] 谭元标, 曾梦婷, 杨亚, 向嵩, 赵飞, 黄朝文, 一种同时提高GH4169高温合金板材强度和塑性的方法,2023年2月25日,中国,专利号:ZL2022111136870.(发明专利)
[4] 谭元标, 吴珊珊, 杨亚, 向嵩, 赵飞, 石维, 黄朝文, 曾梦婷,一种具有纳米孪晶组织的TB8钛合金的制备方法,2023年4月26日,中国,专利号:ZL2022114142905.(发明专利)
[5] 谭元标, 曾梦婷, 张文玮, 杨亚, 向嵩, 石维, 黄朝文, 一种具有大量层错和形变纳米孪晶的长棒相组织的钴基合金及其制备方法, 2023年8月15日,中国,专利号:ZL2022111658974.(发明专利)
[6] 谭元标, 王学敏, 杨亚,一种搅拌摩擦焊焊缝区织构样品的制备方法, 2023年10月25日,中国,专利号:ZL202010414914.8.(发明专利)
(4) 近年获得教学成果及指导学生参加学科竞赛获奖情况
[1]教学成果:主持贵州省省级教改项目1项;获2021年度贵州大学本科教学成果奖特等奖(排名第5)1项、一等奖(排名第5)1项;
[2] 获贵州省第二届高校教师教学创新大赛一等奖(排名第4);获贵州大学材料与冶金学院第三届“唯特高”杯教师教学技能大赛三等奖1项。
[3] 第1指导教师指导本科生和研究生参加2023中国大学生机械工程创新创意大赛:材料热处理创新创业赛,荣获一等奖1项,三等奖1项;
[4] 第1指导教师指导本科生和研究生参加2022中国大学生机械工程创新创意大赛:材料热处理创新创业赛,荣获二等奖1项,三等奖1项;
[5] 第1指导教师指导本科生参加2021中国大学生机械工程创新创意大赛:材料热处理创新创业赛,荣获三等奖2项;
[6] 第1指导教师指导本科生参加第十八届“挑战杯”全国大学生课外学术科技竞赛,获贵州省省级一等奖1项,获校级一等奖1项。
[7] 指导2019届本科毕业设计(论文),获校级本科毕业生优秀毕业论文二等奖1项;
[8] 指导本科生参加大学生科研训练计划项目3项,其中国家级大创2项,省级大创1项;
[9] 指导本科生参加校级SRT项目4项;
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