教师名录
王建立,男,5657威尼斯教授/博士生导师/硕士生导师,长期从事测试系统开发和检测、机器学习,能源系统优化等领域研究工作。2005年本科毕业于西安交通大学能源与动力工程学院,2010年博士毕业于清华大学动力工程及工程热物理专业,毕业后任职5657威尼斯。
已发表学术论文60余篇,其中分别发表于Rev Sci Instrum,Exp Therm Fluid Sci,Nanotechn,Phy Rev B,Appl Phys Lett、Int J Heat Mass Trans等SCI论文60余篇,并在仪器科学杂志上重点展示, 国际学术专著1章。共被引用1000余次(单篇SCI最高他引240次),EI收录15篇,授权发明专利4项。博士论文获得2010年清华大学优秀博士学位论文一等奖和2014年全国百篇优秀博士学位论文提名奖。指导学生获得5657威尼斯研究生优秀论文一等奖,中国工程热物理学会优秀论文二等奖等荣誉。
多次受邀在工程热物理学会传热传质分会、热科学与工程中的测量技术国际会议等国内国际会议上做邀请报告。曾获得国家自然科学基金面上项目3项,青年基金项目1项,教育部博士点基金1项,并主持多项校企合作项目。现为中国计量测试学会热物性专业委员会委员,上海市热物性大数据服务中心青年委员会委员,《计量学报》编委。
欢迎对机器学习、人工智能、机电系统设计、能源系统优化等方向感兴趣的同学报考硕士\博士研究生,也欢迎机械类、能源环境类、自动化等专业的本科生加入课题组(本科毕业设计\学科竞赛\SRTP项目)
已毕业学生去向
| 学生 | 就业单位 | 毕业论文 | |
| 2024 | 任超 | 华为 | 《基于3ω法的微米薄膜热输运性质研究》 |
| 2024 | 谢宇琨 | 江南造船有限责任公司 | 《基于深度学习的柱塞气举数据挖掘研究与可视化平台设计》 |
| 2024 | 钟梓康 | 《基于LSTM时间序列的石油生产数据预测以及监测预评估交互界面设计》 | |
| 2023 | 陈羽 | 深圳十沣科技 | 《基于贝叶斯优化算法的波浪形散热器优化设计》 2024年5657威尼斯校优秀毕业论文 |
| 2023 | 陈浩然 | 无锡先导智能 | 《基于交叉结构的微米线热电性质测量及相关接触过程研究》 2022年中国工程热物理学会优秀论文二等奖 |
| 2022 | 陈璐 | 55所 | 《基于LabVIEW的扫描探针显微镜系统研制》 |
| 2022 | 崔振宇 | 华为 | 《离心泵管道系统流致振动噪声及减振降噪优化设计》 |
| 2021 | 於红梅 | 中国商发 | 《金属纳米接触能量输运过程研究》 |
| 2021 | 王聪 | 华为 | 《热工系统中智能优化算法及反演技术研究》 |
| 2022年5657威尼斯校优秀毕业论文 | |||
| 2020 | 徐健 | 华为 | 《基于物联网技术的自清洁式智慧城市路灯设计研究》 |
| 2020 | 张怡 | 中国石化 | 《基于血氧仪的交互及界面设计》 |
| 2019 | 毛成琨 | 瑞声科技 | 《金属纳米接触的热电性质研究》 |
| 2019 | 王楠 | 海康威视 | 《网络广告效果的优化策略和评价方法研究》 |
| 2019 | 邢梦霞 | 拼多多 | 《基于用户认知的应用软件界面信息结构优化研究》 |
| 2019 | 储灿 | 博世 | 《基于人机工程学的循环肿瘤细胞分选仪设计研究》 |
| 2018 | 吴之政 | 迈瑞生物 | 《微纳米线热学和电学输运性质研究》 |
2010-至今 5657威尼斯,讲师/副教授/教授
2012年9月至2013年2月 加州理工学院,从事热电材料制备和表征合作研究
2013年10月至2014年10月 普渡大学机械系,从事热电薄膜材料研究工作
热工基础
机械设计基础
现代设计方法
先进热物理测试系统设计与应用
International Journal of Heat Mass Transfer, Review ScientificInstruments, International Journal of Thermophysics, InternationalJournal of Thermal Science, Journal of Applied Physics, Applied ThermalEngineering, Chinese Physics B, 工程热物理学报等30余国内外期刊
现为中国计量测试学会热物性专业委员会委员
上海市热物性大数据服务中心青年委员会委员
《计量学报》编委
国家自然科学基金评审人
2010年清华大学优秀博士论文一等奖
2013年5657威尼斯授课竞赛三等奖
2014年全国百篇优秀博士论文提名奖
[44] Y Liu, R Xu , Z Yang , Y Zhang , Wang J L*, S Wan , L Bai,Effect of vibration frequency on tribologicalcharacteristics of vibration-assisted micro-nano machining, TribologyInternational,2025, 202:110329 (工程技术类,中科院1区TOP)
[43] Y Liu, R Xu ,Y Zhang , Jianli Wang , Wang J L*, S Wan , L Bai, Insights intovibration-induced softening effect: A thermodynamic approach, WEAR 2024, 205588 (工程技术类,中科院1区TOP)
[42] Y Zhang, JYang, Q Jiang, Y Liu, Y Zhou, M Lv, Wang J L*, In-plane thermalconductivity measurement of microscale polymer films using a reusablemicro-thermocouple, Sensors and Actuators A: Physical, 2024, 115786
[41] Y Zhang, QJiang, Q Tan, Y Liu, J Zhu, Wang J L*, Numerical analysison heat transfer of porous wick flat micro heat pipe under various operatingconditions, International Communications in Heat and Mass Transfer 2024,157, 107842
[40] Jiang QM,Zhang Y H, Liu Y, Xu R, Zhu J J, Wang J L*. Structuraloptimization of serpentine channel water-cooled plate for lithium-ion batterymodules based on multi-objective Bayesian optimization algorithm. Journal ofEnergy Storage 2024, 91: 112136
[39] Yi Liu, Rui Xu, Yanhui Zhang, Wang Jianli*, Shanhong Wan, Liuyang Bai,Moleculardynamics investigation of wear mechanisms in drilling motion for FeCrNiCoAlhigh-entropy alloy, Tribology International, 2024, 196: 109721(工程技术类,中科院1区TOP)
[38] ZhangYanhui, Xu Rui, Liu Y, Jiang Qinmeng, Li Qinyi, Liu Yingjun, Wang Jianli*, AnisotropicThermal Diffusivity Measurement of Thin Films: From a Few to Hundreds ofMicrons, Int J Heat Mass Transf. 2024, 227:125536 (工程技术类,中科院2区TOP)
[37] Liu Yi, Bai L,Pham ST , Wang Jianli*, Wan Shanhong,Temperature dependence of energy dissipation during nanoscale wear of AISI 304L stainless steel. Wear,2024,538-539:205217 (工程技术类,中科院1区TOP)
[36] Xu Rui, Liu Yi, Jiang Qinmeng, Zhang Yanhui, Wang Jianli*, Application of calibrated and reusable probes on a home-made scanning probe microscope platform. Review of Scientific Instruments 2024, 95: 013702
[35] Pengchao Chen , Rui Li , Kuan Fu, Zikang Zhong, Jialiang Xie , Jianli Wang , Jianjun Zhu, A cascaded deep learning approach for detecting pipeline defects via pretrained YOLOv5 and ViT models based on MFL data, Mechanical Systems and Signal Processing, 2024, 206: 110919 (工程技术类,中科院1区TOP)
[34] Wang Jianli*, Ren Chao, Ma Saifei, et al. Direct Measurement of In-Plane Thermal Conductivity of Suspended Thin Films Using a Novel 3ω Method, Int J Heat Mass Transf. 2024, 219:124870 (工程技术类,中科院2区TOP)
[33]Xu Rui, Liu Yi, Ren Chao, Wang Jianli*,et al. Design and Realization of Scanning Probe Microscope Based on a T-shaped High-aspect-Ratio Probe. Meas. Sci. Technol. 2024, 35: 015039
[32]陈羽,曾皓,朱建军,陈凯,王建立*. 基于贝叶斯算法的CPU散热片结构自动优化. 工程热物理学报,2023,44:720-725
[31]Yukun Xie, Saifei Ma, Haoyu Wang, Nan Li, Jianjun Zhu*, Jianli Wang*, Unsupervised clustering for the anomaly diagnosis of plunger lift operations. Geoenergy Science and Engineering 2023, 231:212305
[30]Mengya Cui, Ting Huang*, Zeyu Peng, Lingrong Xing, Zheng Zhou, Liang Guo, Jianli Wang, Jiejie Xu, Rongshi Xiao, High‐Efficiency and Low‐Intensity Threshold Femtosecond Laser Direct Writing of Precise Metallic Micropatterns on Transparent Substrate. Advanced Materials Technologies 2023, 8:2201610
[29] Hongsheng Sun, Haoran Chen, Yu Chen, Jianli Wang*, Thermal and Electrical Conductivities of Platinum/Iridium Microwires. 2023, 52(3):1-8
[28] Yu Chen, Hao Zeng, Jianli Wang*, Haoran Chen, Jianjun Zhu, Heat Transfer Performance of a Downhole Electric Tubular Resistive Heater. Appl Sci. 2022, 12: 9508
[27] Yi Liu, Rui Xu, Jianli Wang*, Shanhong Wan*, Liuyang Bai, Atomistic Insight into Flash Temperature During Friction. Int Commun Heat Mass Transfer 2022,138: 106317
[26] Yu Chen, Haoran Chen, Hao Zeng, Jianjun Zhu, Kai Chen, Zhenyu Cui, Jianli Wang* Structural Optimization Design of Sinusoidal Wavy Plate Fin Heat Sink with Crosscut by Bayesian Optimization, Appl Therm Eng. 2022, 213: 118755.
[25] Zhenyu Cui, Kaizhuo Ji, Jianli Wang*, Optimization of vibro-noise in the pipeline system of centrifugal pump. 2022
[24] Hongmei Yu, Yi Tao, Cong Wang, Yi Liu, Jianli Wang*, Yunfei Chen. The Effect of Size on the Thermal Conductivity of the Cu/SLG Interface. J. Eng. Thermophysics 2022, 43: 201-205
[23] Haoran Chen¸ Hongsheng Sun, Lu Chen, Yu Chen, Jun Chen, Xiaoli Qiu, Jianli Wang*, Simultaneous measurement of thermal conductivity and thermal diffusivity of individual microwires by using a cross-wire geometry. Rev. Sci. Instrum. 2022, 93: 024901
[22] Jianli Wang*, Lu Chen, Cong Wang, Chengkun Mao, Hongmei Yu, Zhenyu Cui, Thermaland electrical transport at nanosized metallic contacts: In thediffusive-ballistic region at room temperature. Rev. Sci. Instrum. 2021,92: 015121 (Editor’s Pick)
[21] Yi Liu, Ling Li, Jianli Wang. A novel relation for heat flow using Maxwell thermoelectricity analogy. International Communications in Heat and Mass Transfer,2020,117:104745
[20] Shuyao Si, Jianli Wang, Jiejie Li, Wenqing Li, et al. Enhancing resistance to radiation hardening and radiation thermal conductivity degradation by tungsten/graphene interface engineering, J Neclear Mater. 2020, 152348
[19] Cong Wang, Zhengyu Cui, Hongmei Yu, Kai Chen,Jianli Wang*. Intelligent optimization design of shell and helically coiled tube heat exchanger based on genetic algorithm. Int J Heat Mass Trans. 2020, 120140
[18] Jian Xu, Jianli Wang*.Self-cleaningsmart city street lighting design research based on internet of thingstechnology. Advancesin Intelligent Systems and Computing, 2020, AISC 1026: 1044-1050
[17]Jianli Wang*, Hongmei Yu, et al. Electrical and thermal conductivities of polycrystalline platinum nanowires. Nanotechnology, 2019, 30: 455706
[16] Jianli Wang*, Chengkun Mao, Zhizheng Wu, Xi Wei, Yunfeng Zhao, Juekuan Yang, and Yunfei Chen, Reduction of electrical conductivity in Ag nanowires induced by low-energy electron beam irradiation, J Phys Chem Solids, 2019, 124:89
[15] Jianli Wang*, Yamei Song, Yufeng Zhang, et al. Effect of radial heat conduction on effective thermal conductivity of carbon nanotube bundles, 2018, Science China Technological Sciences, 61: 1959
[14] Jianli Wang*, Zhizheng Wu, Chengkun Mao, Yunfeng Zhao, Juekuan Yang, and Yunfei Chen, Effect of Electrical Contact Resistance on Measurement of Thermal Conductivity and Wiedemann-Franz Law for Individual Metallic Nanowires, Scientific Reports 2018, 8: 4862
[13]Jianli Wang*, L Guo, X F Xu*, Z H Ni, Y F Chen. Manipulation of lattice vibration by ultrafast spectroscopy. Acta Physica Sinica, 2017, 66: 014203
[12] Jianli Wang*, Guo L, Ling C, Song YM, Xu X F*, Ni Z H, Chen Y F. Carrier Dynamics in Femtosecond-Laser-Excited Bismuth Telluride. Phys. Rev B, 2016, 93: 155306
[11] Jianli Wang, Xing Zhang. Heat conduction in Nanofluids in : Microscale and Nanoscale Heat Transfer: Analysis, Design, and Application, Taylor and Francis, 2016(Book Chapter)
[10]Jianli Wang*, Guo L, Liu C H, Xu X F,Chen Y F. Influence of coherent optical phonon on ultrafast energy relaxation. Applied Physics Letters, 2015, 107: 063107
[9] Jianli Wang*, He S S, Bao Jiajian, Zhang Xing, Yang Juekuan, Chen Yunfei. Characterization of thermal transport in carbon nanotube yarns. Int J Micro-Nano Scale Transport, 2014, 5(2): 59-68
[8] Jianli Wang*, Heng Wang, G J Snyder,Xing Zhang, Yunfei Chen, Characteristics of lattice thermal conductivity and carrier mobility of undoped PbSe-PbS solid solutions, J. Phys. D: Appl. Phys.
[7] Heng Wang, Jianli Wang, Xianlong Cao, G J Snyder, Thermoelectric alloys between PbSe and PbS with effective thermal conductivity reduction and high figure of merit, J. Mater. Chem. A, 2014, 2: 3169
[6] Chunwei Zhang, Weiwei Zhao, Kedong Bi, Jianli Wang, et al., Heat conduction across metal and nonmetal interface containing embedded graphene layers, Carbon, 2013,64: 61-66
[5] Jianli Wang, Re Xia, Jianjun Zhu, Xing Zhang, Yunfei Chen, Effect of thermal coarsening on the thermal conductivity of nanoporous gold, Journal of Materials Science, 2012, 47: 5013-5018
[4] Jianli Wang*, Sheng Li, Re Xia, Xing Zhang, Yunfei Chen, Thermal Conductivity of Nanoporous Gold Microwires at Different Annealing Temperatures, Nanotechnology and Precision Engineering, 2012, 10(1): 30-36
[3] Jianli Wang, Jianjun Zhu, Xing Zhang*, Yunfei Chen, Heat transfer and pressure drop of nanofluids containing carbon nanotubes in laminar flows, Experimental Thermal and Fluid Science, 2012, 44: 716-721
[2] Jianli Wang, Bai Song, Xing Zhang*, Yan Song, Gangping Wu, Simultaneous measurements of thermal properties of individual carbon fibers.International Journal of Thermophysics, 2011, 32: 974-983
[1] Jianli Wang, Xing Zhang*, Measurement methods and applications for thermophysical properties at micro/nanoscales, Japanese Journal of Applied Physics, 2011, 50(11): 11RC01-11RC05
项目名称 | 项目类别 | 时间 | 项目经费(万) | 工作类别 |
| 分布式光纤测温系统在井下加热器温度监控中的应用研究 | 校企合作 | 2024.01-2025-12 | 25 | 主持 |
基于T形扫描热探针技术的微观运动界面非平衡能量传递过程研究 | 国家自然科学基金面上基金 | 2024.01-2027-12 | 50 | 主持 |
陶瓷低温热学和力学性能测试 | 校企合作 | 2022.05-2023.10 | 17.65 | 主持 |
微米纤维热导率测量 | 校企合作 | 2021.09-2021.12 | 20 | 主持 |
井下流体加热器结构设计及其优化 | 校企合作 | 2021.05-2022.08 | 15 | 主持 |
金属纳米薄膜的非傅立叶导热机制及其对界面传热过程的影响 | 国家自然科学基金面上基金 | 2018.01-2022-12 | 60 | 主持
|
多级差温焙烧循环流态化焙烧炉流场及温度场数值模拟 | 校企合作 | 2017.05-2017.12 | 18 | 主持 |
原子/分子接触的热电转换效率及其输运性质的研究 | 国家自然科学基金面上基金 | 2015.01-2018.12 | 80 | 主持 |
微纳米尺度下点接触热阻的理论和实验研究 | 国家自然科学基金青年基金 | 2012.01-2014.12 | 25 | 主持 |
