陶平均

作者: 时间:2021-03-09 点击数:


陶平均            TAO PINGJUN                    教授

所属学院:

材料与能源学院

导师类别:

硕士生导师

科研方向:

非晶合金塑性变形及强韧化、先进金属材料制备及焊接技术、电子功能材料设计及器件应用

联系方式:

pjtao@gdut.edu.cn466392270@qq.com

招生学院:

材料与能源学院



个人简述

陶平均,男,苗族,19787月生,贵州天柱中共党员,博士,教授(2016年破格),硕导。入选广东省千百十工程第七批培养对象。主要从事非晶合金塑性变形及强韧化、先进金属材料制备及焊接技术、电子功能材料设计及器件应用等研究。近年来,主持包括:国家自然科学基金青年基金、教育部高等学校博士学科点基金、广东省自然科学基金、广东省应用型科技重大专项、广东省科技计划项目、广州市科技计划项目等纵向课题多项,在Mat. Sci. Eng. AJ. Alloy. Compd.Mater. DesignIntermetallicsJ. Non-Cryst. SolidsInt. J. Hydrogen Energ.Surf. Coat. Tech.Sci. Bull.等国际知名学术期刊发表SCI论文70余篇,授权国家发明专利6件,转让专利5件,获广东省科技进步二等奖1项。目前为Mat. Sci. Eng. AJ. Alloy. Compd.IntermetallicsJ. Non-Cryst. SolidsNat. Commun.Adv. Funct. Mater.等期刊审稿人。


学科领域

科学学位:材料科学与工程

专业学位:材料工程


教育背景

20096,广东工业大学,材料学专业,工学博士学位

20027,大连交通大学,焊接工艺及设备专业,工学学士学位


工作经历

201612月至今广东工业大学材料与能源学院,教授

201312-201612月,广东工业大学材料与能源学院,副教授

200907-201312月,广东工业大学材料与能源学院,讲师

200207-200409中国中车集团长春轨道客车股份有限公司,助理工程师


学术兼职

广东/江苏/山东/安徽等省级科技计划项目评审专家

广东/陕西等省级自然科学基金项目评审专家

天津市科技奖励评审专家

广州/东莞/清远/佛山/河源/肇庆等地市科技项目评审专家

中国材料研究学会会员

广东省材料研究学会会员

广东省建材行业专家委员会成员


主要荣誉

2016  广东省科学技术奖励二等奖

2012  广东省千百十工”第七批培养对象


主要论文

第一/通讯作者发表代表性SCI研究论文(*为通讯作者):

[1] P.J. Tao*, Z.S. Xiong, L.W. Kong, P.X. Fu, Z.Y. Huang, K.R. Lin, J.Y. Li, S.X. Liang, Y.Z. Yang. Modulation of structure and mechanical properties in metallic glass composites reinforced with B2 phase by microalloying. J. Alloy. Compd., 2025, 1010:177060.

[2] C.P. Xie, P.J. Tao*, W. Zhang, J.J. Hu, S.X. Liang, W.T. Cai, Y.Z. Yang. Composition dependence of mechanically-induced structural rejuvenation in Cu-Zr-based metallic glass: A molecular dynamics study. J. Non-Cryst. Solids, 2025, 650:123360.

[3] Y.F. Liu, S.X. Liang, X.L. Wu, Y.X. Huang, L.C. Zhang, Y.Z. Yang, P.J. Tao*. Fe modulation of CoSiB metallic glasses to highly enhance the pH-universal degradation of wastewater in Fenton-like processes. Appl. Surf. Sci., 2025: 162897.

[4] X.L. Wu, S.X. Liang, L.J. Jia, Y.F. Liu, Y.X. Huang, Y.J. Liu, L.Y. Chen, Y.Z. Yang, P.J. Tao*. Breaking the pH limitation by Mo modulated amorphous medium- entropy alloys as efficient advanced oxidation catalysts. J. Environ. Chem. Eng., 2025, 116151.

[5] P.J. Tao*, S.K. Huang, Z.Y. Long, Z.Y. Deng, X.G. Zhu, X. Xu, H.H. Deng, Y.Z. Yang. Nanoindentation and relaxation behavior of nitrogen doped zirconium based bulk metallic glass. J. Alloy. Compd., 2024, 999:174983.

[6] L.W. Kong, P.J. Tao*, Z.S. Xiong, X.Y. Yan, Y.Z. Yang. Effect of deep cryogenic cycle treatment on the microstructure and mechanical properties of Zr46Cu46Al4Ti4 bulk metallic glass. Intermetallics, 2024, 175:108504.

[7] K.R. Lin, P.J. Tao*, R.K. Liu, Z.Y. Huang, Z.S. Xiong. Effect of crystallographic orientation on mechanical properties of Al0.25CoCrFeNi high entropy alloy under tension. Mater. Today Commun., 2024, 41:110306.

[8] K.R. Lin, P.J. Tao*, Z.Y. Long, R.K. Liu, Y.Z. Yang. Role of cluster structure on the deformation behavior of Zr58Cu36Al6 metallic glass. Mater. Today Commun., 2024, 38:108416.

[9] P.J. Tao*, K.S. Zhu, Z.Y. Long, C.H. Zhang, W.J. Zhang, Y.Z. Yang. Strain rate response and rheological characteristics of ZrCuNiAl bulk metallic glass in supercooled liquid region. J. Non-Cryst. Solids, 2023, 607:122216.

[10] P.J. Tao*, H.J. He, Y.G. Chen, Z.Y. Long, W.J. Zhang, Y.Z. Yang. Thermodynamics and corrosion properties of nitrogen doped zirconium-based bulk metallic glasses. Intermetallics, 2023, 159:107913.

[11] Z.Y. Long, P.J. Tao*, L.W. Kong, G.T. Wang, S.K. Huang, S.H. Wen, H.J. He, Z.H. Huang, X.G. Zhu, X. Xu, H.H. Deng, Y.Z. Yang. Effect of cryogenic thermal cycling on the microstructure and mechanical properties of Zr-based bulk metallic glasses. Mat. Sci. Eng. A, 2023, 863:144513.

[12] Z.S. Xiong, P.J. Tao*, Z.Y. Long, Z.Y. Huang, K.H. Long, X.G. Zhu, X. Xu, H.H. Deng, H.S. Lin, W.Q. Li. The effect of Ta addition on mechanical properties of Zr-based bulk metallic glasses. Intermetallics, 2023, 153:107779.

[13] Z.Y. Long, L.W. Kong, P.J. Tao*, Z.H. Huang, X.G. Zhu, X. Xu, Y.Z. Yang. Viscosity and structure relaxation in Zr60Cu20Al10Ni10 metallic glass. J. Non-Cryst. Solids, 2023, 604:122150.

[14] W.J. Zhang, P.J. Tao*, Y.G. Chen, J.F. Si, Z.Y. Long, S.K. Huang, H.J. He, Y.Z. Yang. Structural evolutionary behavior of Zr-based bulk metallic glasses under thermoplastic deformation. Intermetallics, 2023, 155:107831.

[15] Z.Y. Huang, P.J. Tao*, Z.Y. Long, Z.S. Xiong, X.G. Zhu, X. Xu, Z.H. Huang, H.H. Deng, H.S. Lin. Effect of Ti addition on mechanical properties of Zr-based bulk metallic glasses. J. Non-Cryst. Solids, 2023, 601:122075.

[16] P.J. Tao*, W.J. Zhang, Y.G. Chen, J.F. Si, K.S. Zhu, Z.H. Huang, Y.Z. Yang. Effect of high temperature deformation on the deformation behavior and thermodynamic properties of a Zr-based bulk amorphous alloy. J. Alloy. Compd., 2022, 907:164450.

[17] Z.Y. Long, P.J. Tao*, G.T. Wang, K.S. Zhu, Y.G. Chen, W.J. Zhang, Z.H. Zhao, Y.Z. Yang, Z.H. Huang. Effect of Nb and Ta addition on mechanical properties of Zr-based bulk metallic glasses and composites. J. Alloy. Compd., 2022, 912:165071.

[18] W.J. Zhang, P.J. Tao*, Y.G. Chen, J.F. Si, Z.H. Huang, K.S. Zhu, Y.Z. Yang. Study on isothermal crystallization kinetics of Zr55.7Cu22.4Ni7.2Al14.7 bulk amorphous alloy. Sci. Rep., 2022, 12:5060.

[19] Y.G. Chen, P.J. Tao*, W.J. Zhang, F.H. Li, Y.Z. Yang. Study the effect of nitrogen content on the friction and wear properties of Zr-Cu-Ni-Al bulk metallic glasses. J. Tribol-T. Asme, 2022, 144:071701-1-7.

[20] K.S. Zhu, P.J. Tao*, C.H. Zhang, Z.H. Zhao, W.J. Zhang, Y.Z. Yang. Effect of strain rates on the plastic deformation behavior and serrated flow of Zr55.7Cu22.4Ni7.2Al14.7 bulk metallic glass. Mater. Today Commun., 2021, 27,102320.

[21] C.H. Zhang, P.J. Tao*, K.S. Zhu, Y.G. Chen, W.J. Zhang, Y.Z. Yang. Study of Novel Fe-Based Amorphous/Nano- crystalline Soft Magnetic Powder Cores with NiCuZnFe2O4 Coating Layer. J. Supercond. Nov. Magn.. 2021, 34:2389-2396.

[22] Y.G. Chen, P.J. Tao*, W.J. Zhang, C.H. Zhang and K.S. Zhu. Study on friction and wear properties of Zr–Cu–Ni–Al crystalline powder cladding and amorphous composite powder cladding by laser. Coatings, 2021, 11(1)103:1-13.

[23] W.W. Zhang, P.J. Tao*, Q. Tu, D.Y. Li, Y.Z. Yang. Effect of laser surface melting on bulk metallic glass: Investigation of microstructure, microhardness, friction and wear properties. J. Alloy. Compd., 2018, 732: 792-798.

[24] P.J. Tao*, W.W. Zhang, Q. Tu, Y.Z. Yang. The evolution of microstructures and the properties of bulk metallic glass with consubstantial composition laser welding. Metals, 2016, 6, 2331-2339.

[25] P.J. Tao*, W.W. Zhang, Q. Tu, Y.Z. Yang. Response of large-deformation behavior to strain rates in a bulk-metallic glass by hydrogen. Int. J. Hydrogen Energy, 2016, 41(22):9690-9695.

[26] P.J. Tao*, Q. Tu, W.W. Zhang, D.Y. Li, Y.Z. Yang. Research on deformation behavior of zirconium-based bulk metallic glasses containing hydrogen with different deformability. Int. J. Hydrogen Energy, 2016, 41(24):10275-10280.

[27] P.J. Tao*, Y.Z. Yang. Effect of aspect-ratio alterations on plastic deformation behavior of a large-plastic bulk metallic glass[J]. Mater. Design, 2015, 73:10-14.

[28] P.J. Tao*, Y.Z. Yang, Z.W. Xie, Y.D. He. Research on friction and wear behavior of a bulk metallic glass under different sliding velocity[J]. Mater. Lett., 2015, 65(18):1764-1768.

[29] P.J. Tao*, Y.Z. Yang, X. Chen, C.M. Wang, J. Gao. Study on crystallization behavior in zirconium-based bulk amorphous alloy after cobalt implantationMater. Lett.2014, 121(4):177-180.

[30] P.J. Tao*, Y.Z. Yang, X.J. Bai, Z.W. Xie, X.C. Chen. Enhanced wear resistance in Zr-based bulk metallic glasses by hydrogen. Int. J. Hydrogen Energy, 2013, 38(21):9052-9056.

[31] P.J. Tao*, Y.Z. Yang, X.J. Bai, Z.W. Xie, X.C. Chen. The relationship between shear bands and deformability in bulk metallic glasses. J. Alloy. Compd., 2012, 536:226-230.

[32] P.J. Tao*Y.Z. YangG.J. GuanD.Q. ZhaoG.Y. GuanZ.W. XieEffect of heat treatment on the mechanical properties of FeCoZrWB bulk metallic glass. J. Wuhan Univ. Technol.2012, 27(3):547-549.

[33] P.J. Tao, Y.Z. Yang, Z.J. Dong, Y.P. Ren. Effects of Fe/Co ratio on the crystalliza- tion behavior in FeCoBSiNb bulk amorphous alloys. Rare Metal Mat. Eng., 2011, 40(9): 1625-1628.

[34] P.J. Tao, Y.Z. Yang, X.J. Bai, Z.W. Xie, X.C. Chen. An investigation on the fracturing behavior of bulk metallic glass with large plasticity. Mater. Lett., 2010, 64(13):1421-1423.

[35] P.J. Tao, Y.Z. Yang, Q. Ru. Effect of rotational sliding velocity on surface friction and wear behavior in Zr-based bulk metallic glass. J. Alloy. Compd., 2010, 492(1-2):L36-L39.

[36] P.J. Tao, Y.Z. Yang. Vickers indentation tests in a Zr62.55Cu17.55Ni9.9Al10 bulk amorphous alloy. Mater. Lett., 2010, 64(9):1102-1104.

[37] P.J. TaoY.Z. YangX.J. BaiZ.W. XieX.C. Chen. Room temperature plastic deformation behavior of ZrCuNiAl bulk metallic glasses. Int. J. Min. Met. Mater.2010, 17(3):327-330.

[38] P.J. Tao, Y.Z. Yang, Z.X. Mu, X.C. Chen, Z.W. Xie. Influences of ion implantation on non-isothermal crystallization behaviors of bulk metallic glass. J. Alloy. Compd., 2009, 479(1-2):736-740.

[39] P.J. Tao, Y.Z. Yang, X.J. Bai, Z.X. Mu, G.Q. Li, Z.W. Xie, X.C. Chen. Study on implantation of Co ions in ZrCuNiAl bulk metallic glass. Surf. Coat. Tech., 2009,203(12): 1656-1659.

[40] P.J. TaoY.Z. YangX.J. BaiZ.W. XieX.C. ChenJ.G. Wen. Zr-based bulk metallic glass with super-plasticity under uniaxial compression at room temperature. J. Non-Cryst. Solids2008, 354(31):3742-3746.

[41] P.J. TaoY.Z. YangX.J. BaiZ.W. XieX.C. ChenZ.J. DongJ.G. Wen. Super-plasticity of Zr64.80Cu14.85Ni10.35Al10 bulk metallic glass at room temperature. Sci. Bull.2008, 53(3):465-468.


知识产权

[1] 中国发明专利:  刹车片摩擦材料、刹车片摩擦块及其制备方法和刹车片, ZL 202110621261.5.

[2] 中国发明专利: 一种真空吸铸法制备大块非晶合金的铜模及其制备方法, ZL201710217967.9.

[3] 中国发明专利: 一种三元非晶合金最大负混合焓的计算方法, ZL201810712019.7.

[4] 中国发明专利: 一种真空吸铸法制备大块非晶合金的铜模及其制备方法, ZL201710218038.X.

[5] 中国发明专利: 一种用于制备大块非晶合金的铜模及铜模的制备方法, ZL201210550993.0.

[6] 中国发明专利: 一种新型铁基非晶纳米晶软磁合金及其制备方法, ZL201811512188.2.

[7] 中国发明专利: 一种铁基非晶纳米晶软磁合金及其制备方法和应用, ZL201811347087.4.

[8] 中国发明专利: 一种人体快速测温电子体温计的控制电路, ZL201410222617.8.

[9] 中国实用新型专利: 一种真空吸铸法制备大块非晶合金的铜模, ZL201720352092.9.

[10] 中国实用新型专利: 一种真空吸铸法制备大块非晶合金的铜模, ZL201720352322.1.

[11] 中国实用新型专利:  人体快速测温电子体温计的控制电路, ZL201420269242.6.

[12] 中国实用新型专利: 一种用于制备大块非晶合金的铜模, ZL201220701609.8.


科研项目

[1] 广东省自然科学基金2023A1515012107: 激光辐照掺杂N/O元素大块非晶合金表层微结构演变、稳定性及表面性能研究: 2023.01-2025.12, 主持.

[2] 广东省自然科学基金(2015A030313488: 激光束辐照块体金属玻璃的晶化行为及表面改性强化机理研究, 2015.08-2018.08, 主持.

[3] 国家自然科学基金项目青年基金51201038: 水域环境多场耦合大块非晶合金塑性变形行为及断裂机理研究, 2013.01-2015.12, 主持.

[4] 教育部高等学校博士学科点专项基金(20124420120009: 大块金属玻璃离子注入的晶化与表面强化效应研究, 2013.01-2015.12, 主持.

[5]广东省公益研究与能力建设项目(2016A010103033): 开关电源领域磁放大器用非晶纳米晶合金形成理论、软磁性能调制及关键技术研究, 2015.10-2017.09, 主持.

[6]广州市科技计划项目(201607010052: 激光束辐照大块非晶合金的晶化行为及表面改性机理研究, 2016.04-2018.03, 主持.

[7] 广东省公益研究与能力建设项目(2015A010105028): 镧稀土镁基AB2LaMgNi4储氢合金电极材料的制备及性能研究, 2014.12-2016.11, 主持.

[8] 广东省协同创新与环境平台能力建设项目(2015B090901005):大功率电源开关变压器用非晶纳米晶带材及器件技术开发及产业化,2015.01-2016.12, 主持.

[9] 广东省科技专项资金项目(大专项+任务清单管理模式)(2019DZX025: 面向汽车零部件制造的机器人超声波焊接技术集成及产业化研究, 2019.072022.06, 主持.

[10] 广州市对外合作科技计划项目201807010012):东风日产系列车型门框总成高效生产技术研制及产业化研究, 2018.04-2021.03, 主持.

[11] 广东省应用型科技重大专项(2015B010127003):新型高可靠性超高密度任意互连HDI印制线路板关键技术集成及工程示范, 2015.09-2017.08, 主持.


地址:广州市番禺区广州大学城外环西路100号广东工业大学行政楼325    邮编:510006

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