参考文献/References:
[1].Alkhimov A P, Kosarev V F, Papyrin A N. A method of cold gas-dynamic deposition[J]. Soviet physics doklady, 1990, 35: 1047-1049.
[2].Alkhimov A P, Papyrin A N, Kosarev V F et al. Gas-dynamic spray method for applying a coating[P]. US5302414A. 1994.
[3].Assadi H, Kreye H, G?RTNER F et al. Cold spraying — A materials perspective[J]. Acta mater., 2016, 116: 382-407.
[4].Yin S, Cavaliere P, Aldwell B et al. Cold spray additive manufacturing and repair: fundamentals and applications[J]. Addit. Manuf., 2018, 21: 628-650.
[5].Huang Wen(黄文), Xue Zhaolu(薛召露), Liu Xia(刘侠) et al. Preparation and friction-wear property of plasma-sprayed CoCrAlTaY-Al2O3 coating[J]. Chinese Journal of Rare Metals(稀有金属), 2021, 45: 836.
[6].Fu Wei(富伟), Wu Shungen(巫顺根), Chen Qingyu(陈清宇) et al. Microstructure and properties of high velocity oxygen fuel sprayed WC-Co-Ni coatings[J].Chinese Journal of Rare Metals(稀有金属), 2021, 45: 673.
[7].Xiong Tianying(熊天英),Wang Jiqiang(王吉强).Research Progress of Cold Spray in Institute of Metal Research, Chinese Academy of Sciences[J].Acta Metallurgica Sinica(金属学报), 2023, 59(04): 537-546.
[8].McCune R C, Papyrin A N, Hall J N et al. An exploration of the cold gas-dynamic spray method for several materials systems[C]. Proc. of 8th NTSC, 1995.
[9].Song Kaiqiang(宋凯强),Cong Dalong(丛大龙),He Qingbing(何庆兵) et al.Application and Prospect of Advanced Cold Spray Technology[J].Equipment Environmental Engineering(装备环境工程), 2019, 16(08):65-69.
[10].Li Xu(李旭),Wang Qiang(王强),Niu Wenjuan(牛文娟) et al.Microstructure and Mechanical Properties of Al-Ni Deposits with Cold Spraying by Heat Treatment[J].Chinese Journal Of Rare Metals(稀有金属), 2020, 44(11): 1153-1162.
[11].Chen Xiao(陈枭),Bai Xiaobo(白小波),Ji Gangchang(纪岗昌) et al.Deposition Behavior of Cold-Sprayed Nano-Hydroxyapatite /Ti Composite Particles[J].Chinese Journal Of Rare Metals(稀有金属), 2018, 42(12): 1332-1338.
[12].Gilmore D L, Dykhuizen R C, Neiser R A, et al. Analysis of the Critical Velocity for Deposition in the Cold Spray Process[C]. ASM International Material Solutions Conference. 1999: 2-4.
[13].Stoltenhoff T, Kreye H, Richter H J. An analysis of the cold spray process and its coatings[J].Journal of Thermal Spray Technology , 2002, 11: 542-550
[14].Assadi H, G?rtner F, Stoltenhoff T, et al. Bonding mechanism in cold gas spraying[J]. Applied Surface Science., 2003, 51: 4379-4394.
[15].Schmidt T, G?rtner F, Assadi H, et al. Development of a generalized parameter window for cold spray deposition[J]. Acta Materialia., 2006, 54(3): 729-742.
[16].Richter P, H?ll H. Latest technology for commercially available cold spray systems[J]. Thermal Spray 2006: Building on 100 Years of Success, 2006: 15-18..
[17].Kreye H, Schmidt T, G?rtner F, et al. The Cold Spray Process and Its Optimization[C]. ASM International, 2006: 83-88.
[18].Li Wenya, Liao Hanlin, Coddet C,et al. Numerical simulation of deformation behavior of Al particles impacting on Al substrate and effect of surface oxide films on interfacial bonding in cold spraying[J]. Applied Surface Science., 2007, 253(11): 5084-5091.
[19].Fukumoto M, Wada H, Tanabe K, et al. Effect of substrate temperature on deposition behavior of copper particles on substrate surfaces in the cold spray process[J]. Journal of Thermal Spray Technology., 2007, 16: 643-650.
[20].Ogawa K, Ito K, Ichimura K, et al. Characterization of low-pressure cold-sprayed aluminum coatings[J]. Journal of Thermal Spray Technology., 2008, 17: 728-735.
[21].Tokarev A O. Structure of aluminum powder coatings prepared by cold gas dynamic spraying[J].Metal Science and Heat Treatment., 1996, 38(3): 136-139.
[22].McCune R C, Donlon W T, Cartwright E L, et al. Characterization of Copper and Steel Coatings Made by the Cold Gas-Dynamic Spray Method [C] Proc. of 9th NTSC, 1996.
[23].Dykhuizen R C, Smith M F, Gilmore D L, et al. Impact of high velocity cold spray particles[J].Journal of Thermal Spray Technology., 1999, 8: 559-564.
[24].Gilmore D L, Dykhuizen R C, Neiser R A, et al. Particle velocity and deposition efficiency in the cold spray process[J].Journal of Thermal Spray Technology., 1999, 8: 576-582.
[25].Karthikeyan J, Kay C M, Lindeman J, et al. Cold spray processing of titanium powder[C]. ITSC, 2000.
[26].McCune R C, Cooper R P, Popoola O O. Post-processing of cold-spray deposits of copper and iron proceedings of the 1st international thermal spray conference[C]. ITSC 2000.
[27].Steenkiste T V, Gorkiewicz D W. Analysis of tantalum coatings produced by the kinetic spray process[J]. Journal of Thermal Spray Technology., 2004, 13: 265-273.
[28].Suo Xinkun, Guo Xueping, Li Wenya, et al. Preparation and characterization of magnesium coating deposited by cold spraying [J].Journal of Materials Processing Technology., 2012, 212: 100-105.
[29].Li Changjiu, Li Wenya, Wang Yuyue. Formation of metastable phases in cold-sprayed soft metallic deposit[J]. Surface and Coatings Technology, 2004, 198(1-3): 469-473.
[30].Sturgeon A, Dunn B, Celotto S, et al. Cold sprayed coatings for polymer composite substrate[J]. ESA SP, 2006, 616(1): 1-5.
[31].Yamada M, Kandori Y, Sato K, et al. Fabrication of titanium dioxide photocatalyst coatings by cold spray[J]. Journal of Solid Mechanics and Materials Engineering, 2009, 3(2): 210-216.
[32].Hussain T, McCartney D G, Shipway P H et al. Bonding mechanisms in cold spraying: the contributions of metallurgical and mechanical components[J].Journal of Thermal Spray Technology., 2009, 18, 364-379.
[33].Bray M, Cockburn A, O’Neill W. The laser-assisted cold spray process and deposit characterisation[J]. Surface and Coatings Technology., 2009, 203(19): 2851-2857.
[34].Luo Xiaotao(雒晓涛,Wei Yingkang(魏瑛康,Zhang Yue(张越,Li Changjiu(李长久.fully dense Al coatings sprayed by in-situ micro-forging assisted cold spray and corrosion protection[J]. Surface Technology(表面技术, 2019, 48(04): 34-39.
[35].Huang Chunjie(黄春杰),Yin Shuo(殷硕),Li Wenya(李文亚)et.al.cold spray technology and its system: Research status and prospect [J].Surface Technology(表面技术), 2021, 50(07) 23.
[36].Sun Wen, Chu Xin, Lan Haiming, et al. Current implementation status of cold spray technology: A short review[J]. Journal of Thermal Spray Technology., 2022, 31(4): 848-865.
[37].http://cz-tec.com/list_14/14.html
[38].http://www.uvtm.com/h-col-372.html
[39].http://www.uvtm.com/h-col-103.html
[40].https://www.huaon.com/channel/trend/886011.html.
[41].https://impact-innovations.com/en/.
[42].http://www.plasma.co.jp/en/.
[43].DeForce B S, Eden T J, Potter J K. Cold spray Al-5% Mg coatings for the corrosion protection of magnesium alloys[J]. Journal of Thermal Spray Technology., 2011, 20: 1352-1358.
[44].Sova A, Papyrin A, Smurov I, Influence of Ceramic Powder Size on Process of Cermet Coating Formation by Cold Spray[J]. Journal of Thermal Spray Technology., 2009, 18: 633-641.
[45].Andre C, Liberati, Che H Q, et al. Influence of Secondary Component Hardness When Cold Spraying Mixed Metal Powders on Carbon Fiber Reinforced Polymers[J]. Journal of Thermal Spray Technology., 2021, 30: 1239-1253.
[46].Wong W, Vo P, et al.Effect of Particle Morphology and Size Distribution on Cold-Sprayed Pure Titanium Coatings[J]. Journal of Thermal Spray Technology., 2013, 22: 1140-1153.
[47].中国科学院金属研究所,冷气动力喷涂装置[P]. CN1403210A. 2003.
[48].宝山钢铁股份有限公司,冷气动力喷涂方法和装置[P]. CN1887443A. 2007.
[49].Suo X, Yin Shuo, Planche M P, et al. Strong effect of carrier gas species on particle velocity during cold spray processes[J]. Surface and Coatings Technology., 2014, 268: 90-93.
[50].Luo Xiaotao, Wei Yingkang, Wang Yan, Li Changjiu. Microstructure and mechanical property of Ti and Ti6Al4V prepared by an in-situ shot peening assisted cold spraying[J]. Materials and Design., 2015, 85: 527-533.
[51].Luo Fang(骆芳),Zhao Bin(赵兵),Yao Jianhua(姚建华).Numerical Simulation of Cu Particles Impacting on Medium Steel in Laser-assisted Cold Spraying[J]. Acta Armamentari.(兵工学报),2015, 36(11): 2157-2163.
[52].Cui Lang(崔烺),Liu Guang(刘光),Feng Shengqiang(冯胜强)et.al.Research Status, Application and Challenges of Cold Spray Additive Manufacturing Technology[J]. Rare Metal Materials and Engineering(稀有金属材料与工程), 2023, 52(01): 351-373.
[53].https://lermps.utbm.fr/news/conception-dune-main-par-projection-a-froid/.
[54].Deng Sihao, Cai Zhenhua, Fang Dandan, et al. Application of robot offline programming in thermal spraying[J]. Surface & Coatings Technology., 2012, 206: 3875-3882.
[55].Cai Zhenhua, Deng Sihao, Liao Hanlin, et al. The effect of spray distance and scanning step on the coating thickness uniformity in cold spray process[J]. Journal of Thermal Spray Technology., 2014, 23: 354-362.
[56].Sova A, Grigoriev S, Okunkova A, et al. Potential of cold gas dynamic spray as additive manufacturing technology[J].The International Journal of Advanced Manufacturing Technology., 2013, 69: 2269-2278.
[57].Sova A, Okunkova A, Grigoriev S, et al. Velocity of the particles accelerated by a cold spray micronozzle: experimental measurements and numerical simulation[J]. Journal of Thermal Spray Technology., 2012, 22: 75-80.
[58].Alexey Sova, Sergey Klinkov, Vladimir Kosarev, et al. Preliminary study on deposition of aluminum and copper powders by cold spray C;micronozzle using helium[J]. Surface and Coatings Technology., 2013, 220: 98-101
[59].Suo Xinkun, Liu Taikai, Li Wenya et al. Numerical study on the effect of nozzle dimension on particle distribution in cold spraying[J]. Surface and Coatings Technology., 2012, 220: 107-111.
[60].Alonso L, Garrido M A, Poza P. An optimisation method for the cold-spray process: on the nozzle geometry[J].Materials and Design., 2022, 214: 110387.
[61].Li Changjiu(李长久).Applications, Research Progresses and Future Challenges of Thermal Spray Technology [J]. Thermal Spray Technology (热喷涂技术), 2018, 10(04): 1-22.
[62].Nihan Tuncer, Animesh Bose1. Solid-state metal additive manufacturing: a review[J]. Jom, 2020, 72(9): 3090-3111.
[63].Widener C A, Carter M J, Ozdemir O C, et al. Application of High-Pressure Cold Spray for an Internal Bore Repair of a Navy Valve Actuator.[J] Journal of Thermal Spray Technology., 2015 25(1-2), 193-201.
[64].Pattison J, Celotto S, Morgan R, et al. Cold gas dynamic manufacturing: A non-thermal approach to freeform fabrication[J]. International Journal of Machine Tools and Manufacture., 2007, 47(3-4): 627-634.
[65].Wu Hangjian, Xie Xinliang, Liu Meimei, et al. Stable layer-building strategy to enhance cold-spray-based additive manufacturing[J]. Additive Manufacturing., 2020, 35: 101356.