[1] 胡金刚.中国航天器热控制技术进展[J].航天器工程,2001,10(1):14-29.HU Jingang. Progress of Chinese spacecraft thermal control technology[J]. Spacecraft Engineering,2001,10(1):14-29. [2] JIANG L,TANG Y,ZHOU W,et al. Fabrication of flatten grooved-sintered wick heat pipe[J]. Transactions of Nonferrous Metals Society of China, 2013(9):2714-2725. [3] 李军求,吴朴恩,张承宁.电动汽车动力电池热管理技术的研究与实现[J].汽车工程,2016,38(1):22-27.LI Junqiu,WU Puen,ZHANG Chengning. Study and implementation of thermal management technology for the power batteries of electric vehicles[J]. Automotive Engineering,2016,38(1):22-27. [4] ZHANG Y,LIU S. Design of conducting paths based on topology optimization[J]. Heat&Mass Transfer,2008,44(10):1217-1227. [5] 左孔天,陈立平,张云清,等.用拓扑优化方法进行热传导散热体的结构优化设计[J].机械工程学报,2005,41(4):13-16.ZUO Kongtian,CHEN Liping,ZHANG Yunting,et al.Structural optimal design of heat conductive body with topology optimization method[J]. Journal of Mechanical Engineering,2005,41(4):13-16. [6] 李昊,丁晓红,景大雷.液冷通道分布优化设计的仿真和实验研究[J].机械工程学报,2019,55(10):198-206.LI Hao,DING Xiaohong,JING Dalei. Experimental and numerical investigation of fluid cooling channel layout designed by topology optimization[J]. Journal of Mechanical Engineering,2019,55(10):198-206. [7] 龙凯,左正兴.多工况稳态热传导下的连续体拓扑优化[J].中国机械工程,2007,18(16):38-42.LONG Kai,ZUO Zhengxing. Topological Optimization of contimuum structure for heat conduction under multiple loading cases[J]. China Mechanical Engineering,2007,18(16):38-42. [8] DING X,YAMAZAKI K. Constructal design of cooling channel in heat transfer system by utilizing optimality of branch systems in nature[J]. Journal of Heat Transfer,2007,129(3):245-255. [9] 徐尚龙,郭宗坤,秦杰,等.树形微通道热沉仿生建模及三维热流特性数值分析[J].中国机械工程,2014,25(9):1185-1188.XU Shanglong,GUO Zongkun,QIN Jie,et al. Three dimensional numerical simulation of fluid flow and heat transfer in three-shaped microchannels[J]. China Mechanical Engineering,2014,25(9):1185-1188. [10] YI P,LIU W,WEI C,et al. A conceptual structure for heat transfer imitating the transporting principle of plant leaf[J].International Journal of Heat&Mass Transfer,2014,71(71):79-90. [11] LI H,DING X,MENG F,et al. Optimal design and thermal modelling for liquid-cooled heat sink based on multi-objective topology optimization:An experimental and numerical study[J]. International Journal of Heat and Mass Transfer,2019,144:118638. [12] 张新明,彭俊.胡杨叶片不同叶形的分形特征研究[J].防护林科技,2015(5):55-57.ZHANG Xinming,PENG Jun. Fractal characteristics of populous euphratica with different shapes[J]. Protection Forest Science and Technology,2015(5):55-57. [13] 吕哲,王福利,常玉清.一种改进的Canny边缘检测算法[J].东北大学学报,2007,28(12):1681-1684.LÜZhe,WANG Fuli,CHANG Yuqing. An improved Canny algorithm for edge detection[J]. Journal of Northeastern University,2007,28(12):1681-1684. [14] KANDLIKAR S G, GRANDE W J. Evolution of microchannel flow passages-thermohydraulic performance and fabrication technology[J]. Heat Transfer Engineering,2003,24(1):3-17. [15] ADAMS T M,DOWLING M F,ABDEL-KHALIK S I,et al. Applicability of traditional turbulent single-phase forced convection correlations to non-circular microchannels[J]. International Journal of Heat&Mass Transfer,1999,42(23):4411-4415. [16] BEJAN A,ERRERA M R. Deterministic tree networks for fluid flow:geometry for minimal flow resistance between a volume and one point[J]. Fractals,2011,5(4):685-695. [17] XU B,OOTI K T,WONG N T,et al. Experimental investigation of flow friction for liquid flow in microchannels[J]. International Communications in Heat&Mass Transfer,2000,27(8):1165-1176. [18] WU H,CHENG P. Friction factors in smooth trapezoidal silicon microchannels with different aspect ratios[J].International Journal of Heat&Mass Transfer,2003,46(14):2519-2525. [19] BOOMSMA K,POULIKAKOS D,ZWICK F. Metal foams as compact high performance heat exchangers[J].Mechanics of Materials,2003,35(12):1161-1176. [20] TOGAWA T. Morphology of bifureation vessel and its construction[J]. Physiological-Properties Research,1981,36(1):46-47. [21] 张丹,黄文娟,徐翠莲,等.濒危物种灰叶胡杨不同发育阶段枝系构型特征研究[J].塔里木大学学报,2014,26(1):6-10.ZHANG Dan,HUANG Wenjuan,XU Cuilian,et al. The branching architecture characteristic of endangered species populous pruinosa in different developmental stages[J]. Journal of Tarim University,2014,26(1):6-10. [22] LI H, DING X, JING D, et al. Experimental and numerical investigation of liquid-cooled heat sinks designed by topology optimization[J]. International Journal of Thermal Sciences,2019,146:106065. |