[1] KONCAR V. Smart textiles and their applications[M]. London:Woodhead Publishing, 2016. [2] MATSUHISA N, KALTENBRUNNER M, YOKOTA T, et al. Printable elastic conductors with a high conductivity for electronic textile applications[J]. Nature Communications, 2015:7461-7461. [3] SANTILLAN G. Intelligent electronic system for previously sensing the dryness condition of a textile clothes load in an automatic electronic clothes dryer machine:United States, US20160076193A1[P]. 2016-05-17. [4] 肖渊,蒋龙,陈兰,等.织物表面导电线路成形方法的研究进展[J]. 纺织导报, 2015(8):92-93. XIAO Yuan, JIANG Long, CHEN Lan, et al. Research progress on forming method of conductive circuits on fabric surface[J]. Textile Leader, 2015(8):92-93. [5] ALEXANDER K, STEINKE J, MAGDASSI S. Metal-based inkjet inks for printed electronics[J]. The Open Applied Physics Journal, 2011, 4:19-36. [6] 舒霞云.气动膜片式金属微滴喷射理论与试验研究[D]. 武汉:华中科技大学, 2009. SHU Yunxia. Theoretieal and experimental study on pneumatic diaphragm-based miero molten metal droplet jetting system[D]. Wuhan:Huazhong University of Science and Technology, 2009. [7] AMIRZADEH A, CHANDRA S. Small droplet formation in a pneumatic drop-on-demand generator:Experiments and analysis[J]. Experimental Thermal and Fluid Science, 2010, 34(8):1488-1497. [8] LI Y, TORAH R, BEEBY S, et al. Inkjet printed flexible antenna on textile for wearable applications[C]//88th Textile Institute World Conference 2012. Manchester:Curran Associates, Inc, 2012:520-527. [9] ORME M, LIU Q B, SMITH R. Molten aluminum micro-droplet formation and deposition for advanced manufacturing applications[J]. Aluminum Transactions Journal, 2000, 3(1):95-103. [10] 田小永,曹家赫,曹毅,等. 金属颗粒冷态高速微喷射增材制造工艺研究[J]. 机械工程学报, 2016, 52(3):205-212. TIAN Xiaoyong, CAO Jiahe, CAO Yi, et al. Research on the additive manufacturing process based on high-speed metal particles cold-state impact[J]. Journal of Mechanical Engineering, 2016, 52(3):205-212. [11] 肖渊,齐乐华,曾祥辉,等. 气压驱动金属微熔滴可控喷射及沉积精度分析[J]. 机械工程学报, 2011, 47(15):156-160. XIAO Yuan, QI Lehua, ZENG Xianghui, et al. Uniform metal droplet produced by pneumatic generator with controlled spray process and analysis of the droplet deposition accuracy[J]. Journal of Mechanical Engineering, 2011, 47(15):156-160. [12] 杨利军,李茜,朱晓阳,等. 射频识别标签天线的按需微喷射制备[J]. 光学精密工程, 2016, 24(1):73-82. YANG Lijun, LI Xi, ZHU Xiaoyang, et al. Fabrication of RFID tag antennas based on drop-on-demand technology,[J]. Optics and Precision Engineering, 2016, 24(1):73-82. [13] CUMMINS G, DESMULLIEZ M P.Y. Inkjet printing of conductive materials:A review[J]. Circuit World, 2012, 38(4):193-197. [14] 刘书祯,谈定生,吕超君. 抗坏血酸还原制备微细银粉的研究[J]. 粉末冶金工业, 2009, 19(2):5-9. LIU Shuzhen, TAN Dingsheng, LÜ Chaojun. Research on preparation of fine silver powder by ascorbic acid reduction[J]. Powder Metallurgy Industry, 2009, 19(2):5-9. [15] LI B, LI D P, WANG J P. Copper deposition on textiles via an automated dispensing process for flexible microstrip antennas[J]. Textile Research Journal, 2014, 84(19):2026-2035. [16] 左寒松,李贺军,齐乐华,等. 铝合金微熔滴沉积成形过程中缺陷形成机理研究[J]. 稀有金属材料与工程, 2013, 42(8):1597-1598. ZUO Hansong, LI Hejun, QI Lehua, et al. Formation mechanism of defects in aluminum alloy during micro-droplet deposition[J]. Rare Metal Materials and Engineering, 2013, 42(8):1597-1598. [17] DERBY B. Inkjet printing ceramics:From drops to solid[J]. Journal of the European Ceramic Society, 2011, 31(14):2543-2550. |