[1] Jiang Y X, Lou H F, Xie H F et al. Development status and prospects of advanced copper alloy[J]. Strategic Study of CAE, 22, 84-92(2020).

[2] Chen A H, Yan C, Meng Z L. Preparation and research progress of copper matrix composites[J]. China Metallurgy, 29, 7-11(2019).

[3] Wang C C, Wang R C, Peng C Q et al. Research progress of metallic solid self-lubricating composites[J]. The Chinese Journal of Nonferrous Metals, 22, 1945-1955(2012).

[4] Zhang M J, Zhu S W, Yu J F et al. Development of graphite/copper matrix composites[J]. Foundry Technology, 38, 2565-2570, 2578(2017).

[5] Zhang Q Z, Li Q, Wang A X et al. Recent development in copper-graphite self-lubrication contact materials[J]. Materials Review, 19, 43-46(2005).

[6] Ma X C, He G Q, He D H et al. Sliding wear behavior of copper-graphite composite material for use in maglev transportation system[J]. Wear, 265, 1087-1092(2008).

[7] Assadi H, Kreye H, Gärtner F et al. Cold spraying-a materials perspective[J]. Acta Materialia, 116, 382-407(2016).

[8] Li W Y, Assadi H, Gaertner F et al. A review of advanced composite and nanostructured coatings by solid-state cold spraying process[J]. Critical Reviews in Solid State and Materials Sciences, 44, 109-156(2019).

[9] Koivuluoto H, Lagerbom J, Kylmälahti M et al. Microstructure and mechanical properties of low-pressure cold-sprayed (LPCS) coatings[J]. Journal of Thermal Spray Technology, 17, 721-727(2008).

[10] Lee Y T R, Ashrafizadeh H, Fisher G et al. Effect of type of reinforcing particles on the deposition efficiency and wear resistance of low-pressure cold-sprayed metal matrix composite coatings[J]. Surface and Coatings Technology, 324, 190-200(2017).

[11] Bray M, Cockburn A, O’Neill W. The laser-assisted cold spray process and deposit characterisation[J]. Surface and Coatings Technology, 203, 2851-2857(2009).

[12] Gorunov A I. Investigation microstructure and fracture behavior of welded stainless steel specimens previously obtained by supersonic laser deposition[J]. Journal of Manufacturing Processes, 56, 746-756(2020).

[13] Li P H, Li B, Zhang Q L et al. Comparative study on microstructure and performance of WC/SS316L composite coatings prepared by supersonic laser deposition and laser cladding[J]. Chinese Journal of Lasers, 43, 1102002(2016).

[14] Jin Y, Li B, Zhang X et al. Deposition behavior and electrochemical failure mechanism of WC/SS316L metal matrix composites prepared by supersonic laser deposition[J]. Chinese Journal of Lasers, 45, 0102001(2018).

[15] Yao J H, Wu L J, Li B et al. Research states and development tendency of supersonic laser deposition technology[J]. Chinese Journal of Lasers, 46, 0300001(2019).

[16] Huang X J, Wu L J, Li B et al. Microstructure characterization and tribological properties evaluation on WC/Cu composite coating prepared by supersonic laser deposition[J]. Journal of Mechanical Engineering, 56, 78-85(2020).

[17] Wu L J, Zhang G, Li B et al. Study on microstructure and tribological performance of diamond/Cu composite coating via supersonic laser deposition[J]. Coatings, 10, 276(2020).

[18] Moustafa S F, El-Badry S A, Sanad A M et al. Friction and wear of copper-graphite composites made with Cu-coated and uncoated graphite powders[J]. Wear, 253, 699-710(2002).

[19] Qin X, Wang J, Lin G Y et al. Microstructure, friction and wear properties of copper-coated graphite/copper composites[J]. Materials Reports, 34, 380-384(2020).

[20] Lee H, Shin H, Lee S et al. Effect of gas pressure on Al coatings by cold gas dynamic spray[J]. Materials Letters, 62, 1579-1581(2008).

[21] Li W Y, Huang C J, Yu M et al. Investigation on mechanical property of annealed copper particles and cold sprayed copper coating by a micro-indentation testing[J]. Materials & Design, 46, 219-226(2013).