570                                    摩擦学学报（中英文）                                        第 45 卷

                 0150.2006.04.001.                                 Engineering, 2022, 50(3): 1–17 (in Chinese) [于源, 乔竹辉, 任海波,
            [16]   Wen  Guofu,  He  Rui,  Wang  Xiufei,  et  al.  Effect  of  matrix  等. 高熵合金摩擦磨损性能的研究进展[J]. 材料工程, 2022, 50(3):
                 strengthening elements on microstructure and properties of Cumatrix  1–17]. doi: 10.11868/j.issn.1001-4381.2021.000823.
                 Powder  metallurgy  friction  materials[J].  Powder  Metallurgy  [21]   Xiang  Zaiyu,  Fan  Zhiyong,  Liu  Qi’ang,  et  al.  Effect  of  brake  pad
                 Industry, 2020, 30(5): 45–50 (in Chinese) [文国富, 何锐, 王秀飞,  friction  block  shape  on  tribological  behavior  of  brake  interface  of
                 等. 基体强化元素对铜基粉末冶金摩擦材料显微结构及性能的影                     high-speed train[J]. Tribology, 2021, 41(1): 95–104 (in Chinese) [项
                 响[J]. 粉末冶金工业, 2020, 30(5): 45–50]. doi: 10.13228/j.boyuan.
                                                                   载毓, 范志勇, 刘启昂, 等. 高速列车制动闸片摩擦块形状对制动
                 issn1006-6543.20190076.
                                                                   界面摩擦学行为的影响[J]. 摩擦学学报, 2021, 41(1): 95–104]. doi:
            [17]   Chandra Verma P, Menapace L, Bonfanti A, et al. Braking pad-disc
                                                                   10.16078/j.tribology.2020038.
                 system:  wear  mechanisms  and  formation  of  wear  fragments[J].
                                                               [22]   Han  Weiwei.  Design  and  fabrication  of  copper-base  powder
                 Wear, 2015, 322–323: 251–258. doi:10.1016/j.wear.2014.11.019.
                                                                   metallurgy  friction  material  for  braking  of  high  speed  train[D].
            [18]   Fan  Zhiyong,  Xiang  Zaiyu,  Tan  Deqiang,  et  al.  Wear  analysis  of
                                                                   Nanchang: Nanchang University, 2018 (in Chinese) [韩委委. 高速
                 brake pad for CRH380A high-speed train[J]. Tribology, 2020, 40(2):
                                                                   制动铜基粉末冶金摩擦材料的设计及制备[D]. 南昌: 南昌大学,
                 185–194 (in Chinese) [范志勇, 项载毓, 谭德强, 等. CRH380A型高
                                                                   2018].
                 速动车组制动闸片摩擦损伤分析[J]. 摩擦学学报, 2020, 40(2):
                                                               [23]   Fan  Zhiyong,  Xiang  Zaiyu,  Mo  Jiliang,  et  al.  Effect  of  filling
                 185–194]. doi: 10.16078/j.tribology.2019156.
            [19]   Peng Tao, Yan Qingzhi, Li Gen, et al. The influence of Cu/Fe ratio  materials  into  friction  block  on  brake  performance  of  high-speed
                 on the tribological behavior of brake friction materials[J]. Tribology  train brake pad[J]. Tribology, 2022, 42(5): 900–912 (in Chinese) [范
                 Letters, 2017, 66(1): 18. doi: 10.1007/s11249-017-0961-2.  志勇, 项载毓, 莫继良, 等. 摩擦粒子填充材料对高速列车闸片制
            [20]   Yu  Yuan,  Qiao  Zhuhui,  Ren  Haibo,  et  al.  Research  progress  in  动性能的影响[J]. 摩擦学学报, 2022, 42(5): 900–912]. doi: 10.
                 tribological properties of high entropy alloys[J]. Journal of Materials  16078/j.tribology.2021097.