唐昀青
发布时间:2023-03-23 17:17:21    作者:    点击:[]
姓名 唐昀青 性别

               

                          

出生年月 1989.4
行政职务
学历 博士研究生 学位 博士
专业技术职务及任导师情况  教授,博士研究生导师
所在一级学科名称  机械工程
所在二级学科名称  机械设计及理论

 

学术身份

910023威尼斯齐鲁青年学者

 

学术兼职

Tungsten青年编委,Front. Chem.、Metals期刊客座编辑,Curr. Chin. Sci.、J. Environ. Mater. Sustain. Energy期刊编委,Wear、STAR Protoc.、Langmuir、Cryst. Growth Des.、Phys. Lett. A、Phys. Status Solidi A、物理学报等期刊审稿人。

 

国内外学习和工作经历

2008年09月至2012年06月,中国矿业大学,工程力学,工学学士

2012年09月至2017年12月,江苏大学,机械工程,工学博士

2018年08月至2023年01月,加拿大阿尔伯塔大学,化学与材料工程系,博士后研究员

2023年03月至今,910023威尼斯,教授、博士研究生导师

 

主要研究领域

(1) 磨损机理与控制技术

(2) 材料力学性能与失效机制

(3) 半导体器件可靠性物理

(4) 电子封装热管理

 

招生

欢迎有机械、力学、材料、传热、半导体等相关背景学生报考!欢迎本科同学加入课题组学习!优秀学生可推荐至加拿大阿尔伯塔大学等国际知名高校交流、深造。

常年招聘相关方向博士后,待遇参照910023威尼斯博士后政策。课题组会努力协助申请学校高等级资助和相关基金支持。


承担科研项目情况

[1] 2023-2026 山东省优秀青年科学基金项目(海外),项目负责人

[2] 2023-2028 910023威尼斯齐鲁青年学者启动基金,项目负责人

[3] 2021-2023 加拿大自然科学与工程研究基金,Computational design - development of advanced low cost multi element lightweight alloys,项目骨干

[4] 2020-2023 国家自然科学基金面上项目,微纳制造中石墨烯异质界面传热行为进化构筑与调控研究,项目骨干

[5] 2018-2022 加拿大自然科学与工程研究基金,Develop new carbides for effective high-Cr cast irons (HCCIs) with optimized combination of fracture toughness and hardness used under harsh operation conditions,项目骨干

[6] 2018-2021 加拿大自然科学与工程研究基金,Development of high-performance nano-additive incorporated lubricating fluids and database for drilling systems in the oil and gas industries,项目骨干

[7] 2015-2019 加拿大自然科学与工程研究基金,Development of an electron work function - based microstructure diagnosis technique for developing advanced structural materials,项目骨干

[8] 2016-2019 国家自然科学基金面上项目,复合环境LED车灯集成构造与可靠性评估机制研究,项目骨干

[9] 2015-2017 江苏省普通高校研究生科研创新计划,石墨烯NEMS传热界面的构筑与关键热力学行为研究,项目负责人

[10] 2011-2013 国家自然科学基金面上项目,微纳电子制造高密度集成结构跨尺度构筑与物理可靠性研究,项目骨干

 

近期主要的代表性论文、著作、专利


发表学术论文50余篇,其中以第一作者/通讯作者发表论文20余篇(包括Science子刊1篇,Cell子刊2篇),研究成果获得多家国内外科技媒体报道;获授权国家发明专利8项,申请PCT专利1项。详细论文列表参见ResearchGate(https://www.researchgate.net/profile/Yunqing-Tang-3)。

期刊论文 (#为共同作者,*为通讯作者):

[19] Tang, Y. Q., & Li, D. Y.* (2023). Influences of C, Si and Mn on the wear resistance of coiled tubing steel. Wear, In Press. (中科院一区,Top期刊)

[18] Tang, Y. Q., Kumar, A., Chen, D. L., Li, D. Y.*, Li, Q. Y., & Li, W. (2023). Bauschinger effect on wear of cold-worked Cu and Mg–A study combining molecular dynamics modeling and experimental investigation. Wear, 204726. (中科院一区,Top期刊)

[17] Yang, H., Tang, Y.#*, & Yang, P.* (2023). Building efficient interfacial property with graphene heterogeneous interface. International Journal of Mechanical Sciences, 237, 107782. (中科院一区,Top期刊)

[16] Tang, Y., & Li, D. Y.* (2022). Dynamic response of high-entropy alloys to ballistic impact. Science Advances, 8(31), eabp9096. (Science子刊)[15] Tang, Y.*, Zhang, D., Liu, R., & Li, D.* (2022). Protocol to predict mechanical properties of multi-element ceramics using machine learning. STAR protocols, 3(3), 101552. (Cell子刊,邀稿)

[14] Xu, K., Tang, Y.#*, Wu, C., Zhao, Z., Sun, L., & Li, Y. (2022). Achieving optical phosphine sensitive h-BN nanosheets through transition metal doping. Applied Surface Science, 585, 152700. (中科院一区,Top期刊)

[13] Tang, Y., Zhang, Z., Li, L., Guo, J., & Yang, P.* (2022). Thermal transport enhancement resolution for graphene/Si and graphene/SiC interfaces. International Journal of Thermal Sciences, 171, 107231.

[12] Xu, K., Chen, C., Tang, Y.*, Zhang, X., Wu, C., Geng, M., & Sun, L. (2022). Improving the Performance of All-Solid-Stated Planar pH Sensor With Heat Treated Process. IEEE Sensors Journal, 22(9), 8410-8417.

[11] Tang, Y., Zhang, D., Liu, R., & Li, D.* (2021). Designing high-entropy ceramics via incorporation of the bond-mechanical behavior correlation with the machine-learning methodology. Cell Reports Physical Science, 2(11), 100640. (Cell子刊,封面论文)

[10] Tang, Y., Pan, H., & Li, D. Y.* (2021). Contribution of cold-work to the wear resistance of materials and its limitation–a study combining molecular dynamics modeling and experimental investigation. Wear, 476, 203642. (中科院一区,Top期刊)

[9] Tang, Y., & Li, D. Y.* (2021). Nano-tribological behavior of high-entropy alloys CrMnFeCoNi and CrFeCoNi under different conditions: A molecular dynamics study. Wear, 476, 203583. (中科院一区,Top期刊)

[8] Guo, L., Tang, Y.#, Cui, J., Li, J., Yang, J. R., & Li, D. Y. (2021). Tailoring M7C3 carbide via electron work function-guided modification. Scripta Materialia, 190, 168-173. (中科院一区,Top期刊)

[7] Li, J., Tang, Y.#, Tang, X., & Li, D. Y.* (2021). Promoting in situ formation of core‐shell structured carbides in high‐Cr cast irons by boron addition. Journal of the American Ceramic Society, 104(9), 4891-4901. (中科院一区,Top期刊)

[6] Liu, Z., & Tang, Y.* (2021). An approach for hydrophobic fixed abrasive pad based on layer-by-layer method. Microelectronic Engineering, 238, 111505.

[5] Yang, H., Tang, Y.#*, & Yang, P.* (2019). Factors influencing thermal transport across graphene/metal interfaces with van der Waals interactions. Nanoscale, 11(30), 14155-14163. (中科院一区,Top期刊)

[4] Tang, Y., Yang, H., & Yang, P.* (2017). Investigation on the contact between graphdiyne and Cu (111) surface. Carbon, 117, 246-251. (中科院一区,Top期刊)

[3] Tang, Y., Yang, B., Yang, H., Yang, P.*, Yang, J., & Hu, Y. (2017). Numerical investigation on mechanical properties of graphene covering silicon nanofilms. Computational Materials Science, 126, 321-325.

[2] Tang, Y., Li, J., Wu, X., Liu, Q., Liu, Y., & Yang, P.* (2016). Tunable thermal property in edge hydrogenated AA-stacked bilayer graphene nanoribbons. Applied Surface Science, 362, 86-92. (中科院一区,Top期刊)

[1] Tang, Y., Liu, D., Yang, H., & Yang, P.* (2016). Thermal effects on LED lamp with different thermal interface materials. IEEE Transactions on Electron Devices, 63(12), 4819-4824. (中科院二区,Top期刊)


发明专利

[2] Li, D., Tang, Y., Liu, R., Zhang, D., & Tang, X. COMPLEX MATERIALS, 2021-11-30, WIPO, PCT/AU2021/051429 (PCT专利)

[1] 杨平, 唐昀青, 杨兵, 刘志响. 一种非对称内嵌结构纳米薄膜热整流器的设计方法, 2019-12-31, 中国, ZL201710273047.9 (授权发明专利)


会议报告

Tang, Y. Bauschinger effect on wear of cold-worked Cu and Mg – A study combining molecular dynamics modeling and experimental investigation, The 24rd International Conference on Wear of Materials, Banff, Alberta, Canada (O25.4), 2023. (材料磨损领域顶级国际会议,Oral Presentation)

Tang, Y. Influences of C, Si and Mn on the wear resistance of coiled tubing steel, The 24rd International Conference on Wear of Materials, Banff, Alberta, Canada (P1.24), 2023. (材料磨损领域顶级国际会议,Poster Presentation)

Tang, Y. Contribution of cold-work to the wear resistance of materials and its limitation – A study combining molecular dynamics modeling and experimental investigation, The 23rd International Conference on Wear of Materials, Banff, Alberta, Canada (WO35.1), 2021. (材料磨损领域顶级国际会议,Oral Presentation)

Tang, Y. Sliding wear of high-entropy alloys CrMnFeCoNi and CrFeCoNi: A molecular dynamics study, The 23rd International Conference on Wear of Materials, Banff, Alberta, Canada (WO35.2), 2021. (材料磨损领域顶级国际会议,Oral Presentation)

 

获奖项目

2018年江苏大学优秀博士学位论文

2018年江苏大学优秀毕业研究生

2017年博士研究生国家奖学金

 

联系方式

地址:山东省济南市经十路17923号910023威尼斯千佛山校区910023威尼斯

邮编:250061

邮箱:tangyunqing@sdu.edu.cn

 

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