姓名 |
唐昀青 |
性别 |
男 |
|
出生年月 |
1989.4
|
行政職務 |
|
學曆 |
博士研究生 |
學位 |
博士 |
專業技術職務及任導師情況 |
教授,博士研究生導師 |
所在一級學科名稱 |
機械工程 |
所在二級學科名稱 |
機械設計及理論 |
|
學術身份
山東大學齊魯青年學者
學術兼職
Tungsten青年編委,Front. Chem.、Metals期刊客座編輯,Curr. Chin. Sci.、J. Environ. Mater. Sustain. Energy期刊編委,Wear、STAR Protoc.、Langmuir、Cryst. Growth Des.、Phys. Lett. A、Phys. Status Solidi A、物理學報等期刊審稿人。
國内外學習和工作經曆
2008年09月至2012年06月,中國礦業大學,工程力學,工學學士
2012年09月至2017年12月,江蘇大學,機械工程,工學博士
2018年08月至2023年01月,加拿大阿爾伯塔大學,化學與材料工程系,博士後研究員
2023年03月至今,欧宝体育综合平台,教授、博士研究生導師
主要研究領域
(1) 磨損機理與控制技術
(2) 材料力學性能與失效機制
(3) 半導體器件可靠性物理
(4) 電子封裝熱管理
招生
歡迎有機械、力學、材料、傳熱、半導體等相關背景學生報考!歡迎本科同學加入課題組學習!優秀學生可推薦至加拿大阿爾伯塔大學等國際知名高校交流、深造。
常年招聘相關方向博士後,待遇參照山東大學博士後政策。課題組會努力協助申請學校高等級資助和相關基金支持。
承擔科研項目情況
[1] 2023-2026 山東省優秀青年科學基金項目(海外),項目負責人
[2] 2023-2028 山東大學齊魯青年學者啟動基金,項目負責人
[3] 2021-2023 加拿大自然科學與工程研究基金,Computational design - development of advanced low cost multi element lightweight alloys,項目骨幹
[4] 2020-2023 國家自然科學基金面上項目,微納制造中石墨烯異質界面傳熱行為進化構築與調控研究,項目骨幹
[5] 2018-2022 加拿大自然科學與工程研究基金,Develop new carbides for effective high-Cr cast irons (HCCIs) with optimized combination of fracture toughness and hardness used under harsh operation conditions,項目骨幹
[6] 2018-2021 加拿大自然科學與工程研究基金,Development of high-performance nano-additive incorporated lubricating fluids and database for drilling systems in the oil and gas industries,項目骨幹
[7] 2015-2019 加拿大自然科學與工程研究基金,Development of an electron work function - based microstructure diagnosis technique for developing advanced structural materials,項目骨幹
[8] 2016-2019 國家自然科學基金面上項目,複合環境LED車燈集成構造與可靠性評估機制研究,項目骨幹
[9] 2015-2017 江蘇省普通高校研究生科研創新計劃,石墨烯NEMS傳熱界面的構築與關鍵熱力學行為研究,項目負責人
[10] 2011-2013 國家自然科學基金面上項目,微納電子制造高密度集成結構跨尺度構築與物理可靠性研究,項目骨幹
近期主要的代表性論文、著作、專利
發表學術論文50餘篇,其中以第一作者/通訊作者發表論文20餘篇(包括Science子刊1篇,Cell子刊2篇),研究成果獲得多家國内外科技媒體報道;獲授權國家發明專利8項,申請PCT專利1項。詳細論文列表參見ResearchGate(https://www.researchgate.net/profile/Yunqing-Tang-3)。
期刊論文 (#為共同作者,*為通訊作者):
[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. (中科院一區,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. (中科院一區,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. (中科院一區,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. (中科院一區,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,封面論文)
[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. (中科院一區,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. (中科院一區,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. (中科院一區,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. (中科院一區,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. (中科院一區,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. (中科院一區,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. (中科院一區,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. (中科院二區,Top期刊)
發明專利
[2] Li, D., Tang, Y., Liu, R., Zhang, D., & Tang, X. COMPLEX MATERIALS, 2021-11-30, WIPO, PCT/AU2021/051429 (PCT專利)
[1] 楊平, 唐昀青, 楊兵, 劉志響. 一種非對稱内嵌結構納米薄膜熱整流器的設計方法, 2019-12-31, 中國, ZL201710273047.9 (授權發明專利)
會議報告
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. (材料磨損領域頂級國際會議,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. (材料磨損領域頂級國際會議,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. (材料磨損領域頂級國際會議,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. (材料磨損領域頂級國際會議,Oral Presentation)
獲獎項目
2018年江蘇大學優秀博士學位論文
2018年江蘇大學優秀畢業研究生
2017年博士研究生國家獎學金
聯系方式
地址:山東省濟南市經十路17923号山東大學千佛山校區機械工程學院
郵編:250061
郵箱:tangyunqing@sdu.edu.cn