842 工程科学学报，第43卷.第6期 parameters on the fractions of martensite in 17-4 PH stainless steel Fe-C phase on the friction and wear behavior and Mechanism of fabricated by selective laser melting.JAlloys Compd,2021,859: Cu-(Fe-C)alloys.Chin J Eng,2020,42(9):1190 157758 (任浩岩，解国良，刘新华.Cu-Fe-C)合金中Fe-C相的固态转变 [6]Zhou Y,Ning F D.Build orientation effect on geometric 对其摩擦磨损行为及机理的影响.工程科学学报，2020,42(9)： performance of curved-surface 316L stainless steel parts fabricated 1190) by selective laser melting.J Manuf Sci Eng,2020,142(12) [17]Yan X C,Gao S H,Chang C,et al.Microstructure and tribological 121002 property of selective laser melted Fe-Mn-Al-C alloy.Mater Lett, [7]Sander J,Hufenbach J,Giebeler L,et al.Microstructure, 2020,270:127699 mechanical behavior,and wear properties of FeCrMoVC steel [18]Sun Y,Bailey R,Moroz A.Surface finish and properties prepared by selective laser melting and casting.Scr Mater,2017, enhancement of selective laser melted 316L stainless steel by 126:41 surface mechanical attrition treatment.Surf Coat Technol,2019, [8]Zhu Y,Lin GL,Khonsari MM,et al.Material characterization 378:124993 and lubricating behaviors of porous stainless steel fabricated by [19]Ren X Y,Zhang G W,Xu H,et al.Wear resistance of ZCuPb2oSns selective laser melting.J Mater Process Technol,2018,262:41 alloy.Tribology,2020,40(4):467 [9]Huang W,Jiang L,Zhou C X,et al.The lubricant retaining effect (任晓燕，张国伟，徐宏，等.ZCuPb2oSn合金耐磨性能研究.摩擦 of micro-dimples on the sliding surface of PDMS.Tribol Int,2012. 学学报，2020,40(4)：467) 52:87 [20]Li H,Ramezani M,Li M,et al.Tribological performance of [10]Li CC,Yang X F,Wang S R,et al.Study on friction and selective laser melted 316L stainless steel.Tribol Int,2018,128: lubrication characteristics of surface with unidirectional 121 convergence texture.Coatings,2019,9(12):780 [21]Lin L Y,Ecke N,Kamerling S,et al.Study on the impact of [11]Huang M J,Yang Y C,Feng S C.Effect of 316L SLM forming graphene and cellulose nanocrystal on the friction and wear process on sliding wear characteristics and hardness.Surf Technol, properties of SBR/NR composites under dry sliding conditions. 2020,49(1):221 Wear,2018,414-415:43 (黄明吉，杨颖超，冯少川.SLM成形316L工艺对滑动磨损特性 [22]Lates M T,Velicu R,Gavrila C C.Temperature,pressure,and 及硬度的影响.表面技术，2020,49(1)：221) velocity influence on the tribological properties of PA66 and PA46 [12]Zhang B C,Coddet C.Selective laser melting of iron powder polyamides.Materials,2019,12(20):3452 Observation of melting mechanism and densification behavior via [23]Li H,Ramezani M,Li M,et al.Effect of process parameters on point-track-surface-part research.JManf SciEng,201,138(5): tribological performance of 316L stainless steel parts fabricated by 051001 selective laser melting.Manf Lett,2018,16:36 [13]Huang M J,Zhang Z X,Chen P.Effect of selective laser melting [24]Chen X B,Ge X,Zhu Y,et al.A study on microstructure and process parameters on microstructure and mechanical properties of tribology performance of samples processed by selective laser 316L stainless steel helical micro-diameter spring.Int/Ady Manuf melting (SLM).J Mech Eng,2018,54(3):63 Technol,2019,104(5-8):2117 (陈旭斌，葛翔，祝毅，等.选择性激光熔化零件微观结构及摩擦 [14]Grutzmacher P G,Rammacher S,Rathmann D,et al.Interplay 学性能研究.机械工程学报，2018,54(3)：63) between microstructural evolution and tribo-chemistry during dry [25]Liu Y S,Zhai X M,Deng Y P,et al.Tribological property of sliding of metals.Friction,2019,7(6):637 selective laser melting-processed 316L stainless steel against filled [15]Wan Y,Li J L,Xiong D S.Influence of sliding velocity on PEEK under water lubrication.Tribol Trans,2019,62(6):962 lubrication state of surface texturing.J Central South Univ Sci [26]Zhu Y,Zou J,Chen X,et al.Tribology of selective laser melting Tech,2015,46(12):4442 processed parts:Stainless steel 316 L under lubricated conditions. (万铁，李建亮，熊党生.滑动速度对织构化表面润滑状态的影 Wear,2016.350-351:46 响.中南大学学报（自然科学版），2015,46(12)：4442) [27]Yang Y,Zhu Y,Khonsari MM,et al.Wear anisotropy of selective [16]Ren H Y,Xie G L,Liu X H.Effect of the solid-state transition of laser melted 316L stainless steel.Wear,2019,428-429:376parameters on the fractions of martensite in 17-4 PH stainless steel fabricated by selective laser melting. J Alloys Compd, 2021, 859: 157758 Zhou  Y,  Ning  F  D.  Build  orientation  effect  on  geometric performance of curved-surface 316L stainless steel parts fabricated by  selective  laser  melting. J Manuf Sci Eng,  2020,  142（12）: 121002 [6] Sander  J,  Hufenbach  J,  Giebeler  L,  et  al.  Microstructure, mechanical  behavior,  and  wear  properties  of  FeCrMoVC  steel prepared by selective laser melting and casting. Scr Mater, 2017, 126: 41 [7] Zhu  Y,  Lin  G  L,  Khonsari  M  M,  et  al.  Material  characterization and  lubricating  behaviors  of  porous  stainless  steel  fabricated  by selective laser melting. J Mater Process Technol, 2018, 262: 41 [8] Huang W, Jiang L, Zhou C X, et al. The lubricant retaining effect of micro-dimples on the sliding surface of PDMS. Tribol Int, 2012, 52: 87 [9] Li  C  C,  Yang  X  F,  Wang  S  R,  et  al.  Study  on  friction  and lubrication  characteristics  of  surface  with  unidirectional convergence texture. Coatings, 2019, 9（12）: 780 [10] Huang M J, Yang Y C, Feng S C. Effect of 316L SLM forming process on sliding wear characteristics and hardness. Surf Technol, 2020, 49（1）: 221 （黄明吉, 杨颖超, 冯少川. SLM成形316L工艺对滑动磨损特性 及硬度的影响. 表面技术, 2020, 49（1）：221） [11] Zhang  B  C,  Coddet  C.  Selective  laser  melting  of  iron  powder: Observation of melting mechanism and densification behavior via point-track-surface-part research. J Manuf Sci Eng, 2016, 138（5）: 051001 [12] Huang M J, Zhang Z X, Chen P. Effect of selective laser melting process parameters on microstructure and mechanical properties of 316L stainless steel helical micro-diameter spring. Int J Adv Manuf Technol, 2019, 104（5-8）: 2117 [13] Grützmacher  P  G,  Rammacher  S,  Rathmann  D,  et  al.  Interplay between microstructural evolution and tribo-chemistry during dry sliding of metals. Friction, 2019, 7（6）: 637 [14] Wan  Y,  Li  J  L,  Xiong  D  S.  Influence  of  sliding  velocity  on lubrication  state  of  surface  texturing. J Central South Univ Sci Tech, 2015, 46（12）: 4442 （万轶, 李建亮, 熊党生. 滑动速度对织构化表面润滑状态的影 响. 中南大学学报 (自然科学版), 2015, 46（12）：4442） [15] [16] Ren H Y, Xie G L, Liu X H. Effect of the solid-state transition of Fe–C phase on the friction and wear behavior and Mechanism of Cu–(Fe–C) alloys. Chin J Eng, 2020, 42（9）: 1190 （任浩岩, 解国良, 刘新华. Cu–(Fe–C)合金中Fe–C相的固态转变 对其摩擦磨损行为及机理的影响. 工程科学学报, 2020, 42（9）： 1190） Yan X C, Gao S H, Chang C, et al. Microstructure and tribological property of selective laser melted Fe‒Mn‒Al‒C alloy. Mater Lett, 2020, 270: 127699 [17] Sun  Y,  Bailey  R,  Moroz  A.  Surface  finish  and  properties enhancement  of  selective  laser  melted  316L  stainless  steel  by surface  mechanical  attrition  treatment. Surf Coat Technol,  2019, 378: 124993 [18] Ren X Y, Zhang G W, Xu H, et al. Wear resistance of ZCuPb20Sn5 alloy. Tribology, 2020, 40（4）: 467 （任晓燕, 张国伟, 徐宏, 等. ZCuPb20Sn5合金耐磨性能研究. 摩擦 学学报, 2020, 40（4）：467） [19] Li  H,  Ramezani  M,  Li  M,  et  al.  Tribological  performance  of selective  laser  melted  316L  stainless  steel. Tribol Int,  2018,  128: 121 [20] Lin  L  Y,  Ecke  N,  Kamerling  S,  et  al.  Study  on  the  impact  of graphene  and  cellulose  nanocrystal  on  the  friction  and  wear properties  of  SBR/NR  composites  under  dry  sliding  conditions. Wear, 2018, 414-415: 43 [21] Lates  M  T,  Velicu  R,  Gavrila  C  C.  Temperature,  pressure,  and velocity influence on the tribological properties of PA66 and PA46 polyamides. Materials, 2019, 12（20）: 3452 [22] Li  H,  Ramezani  M,  Li  M,  et  al.  Effect  of  process  parameters  on tribological performance of 316L stainless steel parts fabricated by selective laser melting. Manuf Lett, 2018, 16: 36 [23] Chen  X  B,  Ge  X,  Zhu  Y,  et  al.  A  study  on  microstructure  and tribology  performance  of  samples  processed  by  selective  laser melting (SLM). J Mech Eng, 2018, 54（3）: 63 （陈旭斌, 葛翔, 祝毅, 等. 选择性激光熔化零件微观结构及摩擦 学性能研究. 机械工程学报, 2018, 54（3）：63） [24] Liu  Y  S,  Zhai  X  M,  Deng  Y  P,  et  al.  Tribological  property  of selective laser melting-processed 316L stainless steel against filled PEEK under water lubrication. Tribol Trans, 2019, 62（6）: 962 [25] Zhu Y, Zou J, Chen X, et al. Tribology of selective laser melting processed parts: Stainless steel 316 L under lubricated conditions. Wear, 2016, 350-351: 46 [26] Yang Y, Zhu Y, Khonsari M M, et al. Wear anisotropy of selective laser melted 316L stainless steel. Wear, 2019, 428-429: 376 [27] · 842 · 工程科学学报，第 43 卷，第 6 期