394                                     摩   擦   学   学   报                                第 40 卷


   [16]  Descostes  M,  Mercier  F,  Thromat  N,  et  al.  Use  of  XPS  in  the  件表面微结构损伤[J]. 中国表面工程, 2016, 29(2): 117–122]. doi:
       determination of chemical environment and oxidation state of iron  10.11933/j.issn.1007-9289.2016.02.017.
       and sulfur samples: constitution of a data basis in binding energies  [19]  Rasmussen Carsten Jørn, Fæster Søren, Dhar Somrita., et al Surface
       for Fe and S reference compounds and applications to the evidence  crack  formation  on  rails  at  grinding  induced  martensite  white
       of surface species of an oxidized pyrite in a carbonate medium[J].  etching layers[J]. Wear, 2017, 384-385: 8–14. doi: 10.1016/j.wear.
       Applied Surface Science, 2000, 165: 288–302. doi: 10.1016/S0169-  2017.04.014.
       4332(00)00443-8.                              [20]  Steenbergen  Michaël.  Rolling  contact  fatigue  in  relation  to  rail
                                             2+
   [17]  Yamashita Toru, Hayes Peter. Analysis of XPS spectra of Fe  and  grinding[J]. Wear, 2016, 356-357: 110–121. doi: 10.1016/j.wear.2016.
         3+
       Fe   ions  in  oxide  materials[J].  Applied  Surface  Science,  2008,  03.015.
       254(8): 2441–2449. doi: 10.1016/j.apsusc.2007.09.063.  [21]  Zhou  Yan.  Research  on  rolling  contact  friction  damage  and  the
   [18]  Guan  Hongbo,  Chen  Lei,  Zhang  xiuming,  et  al.  Surface  micro-  formation  mechanism  of  white  etching  layer  of  high  speed  rail-
       structure  damage  of  40Cr  samples  in  pre-stressed  dry  grinding  wheel  material[D].  Chengdu:  Southwest  Jiaotong  University,
       process[J].  China  Surface  Engineer,  2016,  29(2):  117 –122  2017(in Chinese) [周琰. 高速轮轨材料滚动摩擦损伤及白层形成
       (in Chinese) [关宏博, 陈磊, 张修铭, 等. 预应力干磨削加工40Cr工       机理研究[D].成都: 西南交通大学, 2017].