1508                                   摩擦学学报（中英文）                                        第 45 卷

            及Cr O 在2p  (576.72 eV)和2p  (586.02 eV)处的特              磨损行为[J]. 有色金属工程, 2023, 13(12): 43–50]. doi: 10.3969/j.
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            征峰. 对于Mn元素来说，其特征峰有2个，分别为MnO                            issn.2095-1744.2023.12.006.
                                                               [  4  ]   Yuan  Zhaojing.  Effect  of  heat  treatment  on  microstructure  and
            在2p  (641.4 eV)和2p  (646.7 eV)处的特征峰. 因此对
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                                                                   mechanical  properties  of  G95Cr18  and  G102Cr 18 Mo  steels[J].
            于G95Cr18盘来说，在磨损区域形成含Fe、Si、Cr和Mn
                                                                   Shanghai Metals, 2018, 40(2): 59–63 (in Chinese) [袁兆静. 热处理
            的氧化物，是其具有优异摩擦性能的关键影响因素.                                对G95Cr18和G102Cr 18 Mo钢的组织和力学性能的影响[J]. 上海金
                                                                   属, 2018, 40(2): 59–63]. doi: 10.3969/j.issn.1001-7208.2018.02.012.
             3    结论                                           [  5  ]   Li Yining, Fan Yaohui, Xia Liqun, et al. Study on contact simulation
                本文中通过使用UMT5多功能摩擦磨损试验机，                             of  parallel  cylinder  seal[J].  Hydraulics  Pneumatics  &  Seals,  2019,
                                                                   39(9): 8–12 (in Chinese) [李奕宁, 樊耀辉, 夏立群, 等. 并联作动筒
            研究3J1球与G95Cr18盘在15#航空液压油中的摩擦学
                                                                   密封接触仿真研究[J]. 液压气动与密封, 2019, 39(9): 8–12]. doi:
            行为，探究该体系在不同速度、载荷及温度下的摩擦
                                                                   10.3969/j.issn.1008-0813.2019.09.003.
            磨损性能，结论如下：
                                                               [  6  ]   Zhang  Xie,  Yin  Dengfeng.  A  research  on  thermal  treatment  of
                a. 随着速度的增加，该体系的摩擦系数从0.103                          elastic  alloy  Ni 36 CrTiAl  (3J1)[J].  Journal  of  Zhejiang  Industry  &
            (10 mm/s)增加至0.122 (30 mm/s)，随后降低至0.095                 Trade Vocational College, 2006, 6(1): 69–72 (in Chinese) [张勰, 尹
            (75 mm/s)，最后升高至0.101 (100 mm/s). 当速度大于                 登峰. Ni 36 CrTiAl(3J1)弹性合金的热处理工艺研究[J]. 浙江工贸
            40 mm/s时，磨损形式由磨粒磨损向黏着磨损演变.                             职业技术学院学报, 2006, 6(1): 69–72]. doi: 10.3969/j.issn.1672-
                                                                   0105.2006.01.015.
                b. 随着载荷的增加，该体系的摩擦系数从0.092
                                                               [  7  ]   Zhou  Jinbao.  Chemical  polishing  process  of  3J1  elastic  alloy[J].
            (1 N)增加至0.133 (3 N)，随后降低至0.095 (5 N)，最后
                                                                   Materials  Protection,  1998,  31(7):  31–32.(in  Chinese)  [周 金 保 .
            升高至0.102 (10 N). 磨损形式从磨粒磨损向黏着磨损
                                                                   3J1弹性合金的化学抛光工艺[J]. 材料保护, 1998, 31(7): 31–32.].
            演变，且在5 N以上会生成摩擦反应膜.                                    doi: 10.16577/j.cnki.42-1215/tb.1998.07.016.
                c. 随着温度的增加，该体系的摩擦系数从0.095                      [  8  ]   Liu Xiang. The effect on mechanical property of alloy 3J1 by heat
            (室温)增加至0.131 (95 ℃)，最后降低至0.107 (155 ℃)，                treatment temperature[J]. Modern Manufacturing Engineering, 2007,
            是由于接触区形成碳化物，导致摩擦系数显著降低，                                (8): 72–74 (in Chinese) [刘祥. 热处理时效温度对3J1材料力学性
                                                                   能的影响[J]. 现代制造工程, 2007, (8): 72–74]. doi: 10.16731/j.
            且波动较大. 磨损形式从磨粒磨损向黏着磨损演变，
                                                                   cnki.1671-3133.2007.08.005.
            且温度超过155 ℃时会出现润滑失效，发生大面积的
                                                               [  9  ]   Guo  Xiaodong,  Zhou  Jinglin.  Manufacturing  technology  and
            材料剥落.
                                                                   properties  analysis  of  precision  Alloy  3J1  bar[J].  Heilongjiang
                d. 使用XPS研究发现该条件下在磨损区域形成氧                           Metallorgy, 2014, 6(4): 20–21,23 (in Chinese) [郭晓东, 周景林. 精
            化膜，结果表明氧化膜的形成是摩擦性能提升的主要                                密合金3J1棒材制造工艺技术与性能浅析[J]. 黑龙江冶金, 2014,
            原因.                                                    6(4): 20–21,23]. doi: 10.3969/j.issn.1674-5183.2014.04.008.
                                                               [10]   Guo  Xiaodong,  Zhou  Jinglin,  Bi  Fucheng,  et  al.  Affect  of  aging
            参 考 文 献
                                                                   temperature  on  mechanical  properties  of  cold-rolled  3J1  alloy[J].
            [  1  ]   Wu Bi, Zhang Zhenbo, Li Shu. Advances in tribology of aero-engine  Metallurgy and Materials, 2015, 35(01): 11–12 (in Chinese) [郭晓
                 materials[J]. Tribology, 2023, 43(10): 1099–1117 (in Chinese) [吴  东, 周景林, 毕富成, 等. 时效温度对冷轧弹性合金3J1力学性能的
                 彼, 张振波, 李曙. 航空发动机材料摩擦学研究进展[J]. 摩擦学学               影响[J]. 黑龙江冶金, 2015, 35(01): 11–12].
                 报, 2023, 43(10): 1099–1117]. doi: 10.16078/j.tribology.2023226.  [11]   Wang  Bin,  Guo  Yanbao,  Zhang  Zheng,  et  al.  Investigation  of
            [  2  ]   Liu  Yongbao,  Zhou  Lina,  Liu  Ming,  et  al.  Effect  of  tempering  cryogenic  friction  and  wear  properties  of  Invar  36  alloy  against
                 parameters on microstructure and mechanical properties of G95Cr18  Si 3 N 4   ceramic  balls[J].  Wear,  2023,  518:  204648.  doi:  10.1016/j.
                 martensitic stainless steel[J]. Heat Treatment of Metals, 2023, 48(7):  wear.2023.204648.[LinkOut].
                 103–111 (in Chinese) [刘永宝, 周丽娜, 刘明, 等. 回火参数对  [12]   Gao  Fei,  Zong  Xiaoming,  Quan  Chaojian,  et  al.  Effect  of  low
                 G95Cr18马氏体不锈钢显微组织及力学性能的影响[J]. 金属热处                temperature  carburizing  on  microstructure  and  properties  of
                 理, 2023, 48(7): 103–111]. doi: 10.13251/j.issn.0254-6051.2023.07.  G95Cr18 martensitic stainless steel[J]. Bearing, 2017(5): 19–22 (in
                 018.                                              Chinese) [高飞, 宗晓明, 权超健, 等. 低温渗碳处理对G95Cr18马
            [  3  ]   He  Shiqi,  Wang  Xinyuan,  Yu  Wenfeng,  et  al.  Friction  and  wear  氏体不锈钢组织和性能的影响[J]. 轴承, 2017(5): 19–22]. doi: 10.
                 behavior  of  high  co-Ni  steel  for  new  generation  aviation[J].  19533/j.issn1000-3762.2017.05.008.
                 Nonferrous  Metals  Engineering,  2023,  13(12):  43–50  (in  Chinese)  [13]   Shao  Ruonan,  Huang  Xiongrong,  Han  Haosheng.  Research  on
                 [贺诗棋, 王馨缘, 于文峰, 等. 新一代航空用高Co-Ni钢的摩擦               friction-wear  characteristics  of  G95Cr18  stainless  steel[J].  Heat