代表期刊论文 :
相关成果以第一/通讯作者发表SCI/EI检索论文44篇,其中ESI热点论文1篇、高被引论文2篇(1篇连续5年入选,被《Science》等期刊引用,SCI引用次数超540次),《机械工程学报》9篇(1篇封面论文及本期最受关注论文),SCI检索论文32篇(中科院一区/二区31篇),并入选《机械工程学报》《中国表面工程》《机械科学与技术》等期刊青年编委以及“2024年入选全球前2%顶尖科学家”榜单。近年来,在国内机械工程领域顶刊《机械工程学报》上相继发表《超薄微热管的研究现状及发展趋势》、《柔性热管的研究现状与发展趋势》和《平板铝热管微沟槽吸液芯的制备及毛细性能研究》等系列综述及科研论文,并受邀在国际能源TOP期刊《Applied Energy》(IF=11.2)上发表首篇篇超薄热管综述论文和在《Renewable and Sustainable Energy Reviews》(IF=16.799)上发表表面结构强化沸腾综述论文。
近五年发表论文:
[1] 唐恒, 汤勇*, 万珍平, 陆龙生, 伍晓宇, 鲁艳军. 平板铝热管微沟槽吸液芯的制备及毛细性能研究. 机械工程学报, 2019, 55: 186-193. (EI,机械工程领域中文顶刊、T1级期刊)
[2] 唐恒, 汤勇*, 伍晓宇, 袁伟, 孙亚隆, 鲁艳军, 彭锐涛. 表面功能结构制造研究的新进展与发展趋势. 机械工程学报, 2022, 58: 183-199. (EI, 机械工程领域中文顶刊、T1级期刊)
[3] Heng Tang, Yong Tang*, Jie Li, et al. Review of the applications and developments of ultra-thin micro heat pipes for electronic cooling. Applied Energy, 2018, 223: 383-400. (SCI, 中科院一区TOP, IF= 11.446, ESI高被引, SCI引用超过480次)
[4] Heng Tang, Liangfeng Xia, Yong Tang, Changxing Weng, Zuohuan Hu, Xiaoyu Wu, Yalong Sun. Fabrication and pool boiling performance assessment of microgroove array surfaces with secondary micro-structures for high power applications. Renewable Energy, 2022, 187: 790-800. (SCI, 中科院一区TOP, IF= 8.634)
[5] Heng Tang, Changxing Weng, Yong Tang, Hui Li, Teng Xu, Ting Fu. Thermal performance enhancement of an ultra-thin flattened heat pipe with multiple wick structure. Applied Thermal Engineering, 2021, 183: 116203. (SCI, 中科院二区TOP, IF= 6.465)
[6] Heng Tang, Yong Tang, Xiaoyu Wu, Ruitao Peng, Yalong Sun. Fabrication and capillary characterization of multi-scale microgroove wicks for ultrathin phase-change heat transfer devices. Applied Thermal Engineering, 2023, 219: 119621. (SCI, 中科院二区TOP, IF= 6.465)
[7] Heng Tang, Yong Tang *, Jie Li, Yalong Sun, Guanwei Liang, Ruitao Peng. Experimental investigation of the thermal performance of heat pipe with multi-heat source and double-end cooling. Applied Thermal Engineering, 2018, 131:159-166. (SCI, 中科院二区TOP, IF= 6.465)
[8] Heng Tang, Yong Tang *, Wei Yuan, Ruitao Peng, Longsheng Lu, Zhenping Wan. Fabrication and capillary characterization of axially micro-grooved wicks for aluminium flat-plate heat pipes. Applied Thermal Engineering, 2018, 129: 907-915. (SCI, 中科院二区TOP, IF= 6.465)
[9] Heng Tang, Yansong Xie, Yong Tang, Xiaoyu Wu, Chunxia Wu, Yalong Sun. Stress analysis and thermal performance of ultra-thin heat pipes for compact electronics. International Communications in Heat and Mass Transfer, 2022, 139: 106484. ( SCI, 中科院二区TOP, IF= 6.782)
[10] Heng Tang, Changxing Weng, Yong Tang, Yanjun Lu, Ting Fu. Effect of inclination angle on the thermal performance of an ultrathin heat pipe with multi-scale wick structure. International Communications in Heat and Mass Transfer, 2020, 118: 104908. ( SCI, 中科院二区TOP, IF= 6.782)
[11] Heng Tang, Bin Guo, Yong Tang, Xiaoyu Wu, Ruitao Peng, Yalong Sun. Fabrication and boiling heat transfer characterization of multi-scale microgroove surfaces. Science China Technological Sciences, 2022, 65: 3010-3019. (中科院大类二区, 影响因子3.903)
[12] 鲁艳军, 刘博, 陈福民, 郭明荣, 唐恒 *, 罗和喜. 微流控芯片模芯的精密铣磨加工及其微注塑成形技术,机械工程学报, 2022, 58: 244-255. (EI, 机械工程领域中文顶刊、T1级期刊)
[13] Gong Chen, Yong Tang, Zhenping Wan, Guisheng Zhong, Heng Tang *, Jian Zeng. Heat transfer characteristic of an ultra-thin flat plate heat pipe with surface-functional wicks for cooling electronics. International Communications in Heat and Mass Transfer, 2019, 100:12-19. ( SCI, 中科院二区TOP, IF= 6.782);
[14] Yalong Sun, Yong Tang*, Wei Yuan, Shiwei Zhang, Heng Tang *. A review on fabrication and pool boiling enhancement of three-dimensional complex structures. Renewable and Sustainable Energy Reviews, 2022, 162: 112437. (SCI, 中科院一区TOP, IF= 16.799)
[15] Gong Chen, Yong Tang, Longhua Duan, Heng Tang *, Guisheng Zhong, Zhenping Wan, Shiwei Zhang*, Ting Fu. Thermal performance enhancement of micro-grooved aluminum flat plate heat pipes applied in solar collectors. Renewable Energy, 2020, 146: 2234-2242. (SCI, 中科院一区TOP, IF= 8.634)
[16] Yalong Sun, Fuye Liang, Yong Tang*, Heng Tang *, Xiaoqian Xi, Shu Yang, Ting Fu. Effect of stagger angle on capillary performance of microgroove structures with reentrant cavities. Science China Technological Sciences, 2021, 64: 1436-1446. (中科院大类二区, 影响因子3.903)