Page 36 - 《精细化工》2020年第7期
P. 36

·1318·                            精细化工   FINE CHEMICALS                                 第 37 卷

                 Research, 2018, 109(7): 654-660.              [28]  BUCHEGGER  S,  SCHUSTER  N,  STRIZKER  B,  et al.  Multilayer
            [12]  ZHOU Q (周琼), HUANG B (黄彪), ZHANG E G (张而耕), et al.   diamond-like amorphous carbon coatings produced by ion irradiation
                 The  research  status  on  preparation  of  diamond-like  carbon  coating   of  polymer  films[J].  Surface  and  Coatings  Technology,  2017,  327:
                 and measures to improve its internal stress and thermal stability[J].   42-47.
                 Journal of Ceramics (陶瓷学报), 2019, 40(5): 556-564.   [29]  PEI Y N (裴亚楠), XIE D (谢东), GUI X (郐晛), et al. The properties of
            [13]  LIN S S (林松盛), ZHOU K S (周克崧), DAI M J  (代明江).   the ultra-high molecular weight polyethylene (UHMWPE) modified
                 Preparation and microstructure of DLC/WC multilayer thin films[J].   by  surface  metallization  and  diamond-like  carbon  (DLC)  film
                 The  Chinese  Journal  of  Nonferrous  Metals  (中国有色金属学报),   deposition duplex treatment[J]. Journal Functional Materials (功能材
                 2013, 23(2): 434-438.                             料), 2011, 42(3): 459-462.
            [14]  DOMíNGUEZ-MEISTER S, ROJAS T C, FRíAS J E, et al. Silver   [30]  GRIGORIEV  S,  VOLOSOVA  M,  FYODOROV  S,  et al.  DLC-
                 effect  on  the  tribological  and  antibacterial  properties  of  a-C: Ag   coating  application  to  improve  the  durability  of  ceramic  tools[J].
                 coatings[J]. Tribology International, 2019, 140: 105837.     Journal  of  Materials  Engineering  and  Performance,  2019,  28(7):
            [15]  ORTEGA-SAENZ  J  A,  ALVAREZ-VERA  M,  HERNANDEZ-   4415-4426.
                 RODRIGUEZ  M  A  L.  Biotribological  study  of  multilayer  coated   [31]  XUE  Q J (薛群基),  WANG  L  P  (王立平).  Diamond-like  carbon-
                 metal-on-metal hip prostheses in a hip joint simulator[J]. Wear, 2013,   based films[M]. Beijing: Science Press (科学出版社), 2012.
                 301(1/2): 234-242.                            [32]  MORSHED  M M,  MCNAMARA B P,  CAMEERON  D  C,  et al.
            [16]  WANG  S  (王松),  LIAO  Z  H  (廖振华), LIU W Q (刘伟强).  The   Effect  of  surface  treatment  on  the  adhesion  of  DLC  film  on  316L
                 application and research progress of diamond-like carbon films in the   stainless steel[J]. Surface and Coatings Technology, 2003, 163: 541-545.
                 field of artificial joints[J]. Journal Functional Materials (功能材料),   [33]  BOCIAGA  D,  KAMINSK  M,  SOBCZYK-GUZENDA  A, et al.
                 2014, 45(5): 5008-5013.                           Surface  properties  and  biological  behaviour  of  Si-DLC  coatings
            [17]  DONNET C, ERDEMIR A. Tribology of diamond-like carbon films:   fabricated by a multi-target DC-RF magnetron sputtering method for
                 Fundamentals  and  applications[M].  New  York:  Springer  Verlag,   medical  applications[J].  Diamond  and  Related  Materials,  2016,  67:
                 2018, 433: 98-105.                                41-50.
            [18]  SHUM P W, ZHOU Z F, LI K Y. Enhancement of adhesion strength   [34]  MASAHIRO  K  (川口雅弘),  PENG  H  M  (彭惠民).  Surface
                 and  tribological  performance  of  pure  carbon  coatings  on  Ti6Al4V   modification  technology  based  on  plasma  ion  implantation[J].  Foreign
                 biomaterials  with  ion  implantation  pre-treatments[J].  Tribology   Locomotive  Vehicle  Technology  (国外机车车辆工艺),  2018,  4:
                 International, 2007, 40(2): 313-318.              22-25.
            [19]  KIM J G,  LEE K  R,  YANG S J.  Wear-corrosion performance of   [35]  LIAO  T  T,  ZHANG  T  F,  LI  S  S,  et al.  Biological  responses  of
                 Si-DLC  coatings  on  Ti-6Al-4V  substrate[J].  Journal  of  Biomedical   diamond-like  carbon  (DLC)  films  with  different  structures  in
                 Materials Research, Part A, 2010, 86(1): 41-47.   biomedical  application[J].  Materials  Science  and  Engineering:  C,
            [20]  LIU J L (刘建立). Study on preparation and tribological properties of   2016, 69: 751-759.
                 hydrogen-free diamond-like carbon films[D]. Kaifeng: Henan Univeristy   [36]  COBO  T,  VILORIA  C  G,  SOLRES  L,  et al.  Role  of  periostin  in
                 (河南大学), 2009.                                     adhesion  and  migration  of  bone  remodeling  cells[J].  PLOS  One,
            [21]  GOPEGUI  U  R,  BAYÓN  R,  ZUBIZARRETA  C,  et al.  Carbon   2016, 11(1): e0147837.
                 containing titanium coating for Ti6Al4V implants[J]. ECS Transactions,   [37]  DALAL A, PAWAR V, MCALLISTER K, et al. Orthopedic implant
                 2010, 25(19): 17-32.                              cobalt-alloy  particles  produce  greater  toxicity  and  inflammatory
            [22]  TOBI A L M, SHIPWAY P H, LEEN S B. Gross slip fretting wear   cytokines than titanium alloy and zirconium alloy-based particles in
                 performance of a layered thin W-DLC coating: Damage mechanisms   vitro, in human osteoblasts, fibroblasts, and macrophages[J]. Journal
                 and life modelling[J]. Wear, 2011, 271(9/10): 1572-1584.   of Biomedical Materials Research, Part A, 2012, 100(8): 2147-2158.
            [23]  JOSKA L, FOJT J, MESTEK O, et al. The effect of a DLC coating   [38]  WOOLEY P H. How has the introduction of new bearing surfaces
                 adhesion layer on the corrosion behavior of titanium and the Ti-6Al-4V   altered the biological reactions to byproducts of wear and modularity[J].
                 alloy for dental implants[J]. Surface and Coatings Technology, 2012,   Clinical Orthopaedics and Related Research, 2014, 472(12): 3699-3708.
                 206(23): 4899-4906.                           [39]  O’NEILL S  C,  QUEALLY J M,  DEVITT B M,  et al.  The  role  of
            [24]  SALGUEIREDO E, VILA M, SILVA  M A, et al. Biocompatibility   osteoblasts in peri-prosthetic osteolysis[J]. The Bone & Joint Journal,
                 evaluation of DLC-coated Si 3N 4 substrates for biomedical applications[J].   2013, 95(8): 1022-1026.
                 Diamond and Related Materials, 2008, 17(4/5): 878-881.   [40]  RAPHEL  J,  KARLSSON  J,  GALLI  S,  et al.  Engineered  protein
            [25]  JOCHEN  T,  SASCHA  B,  BERND  S,  et al.  Optimizing  lateral   coatings  to  improve  the  osseointegration  of  dental  and  orthopaedic
                 homogeneity  of  ion-induced  surface  modifications  of  non-planar   implants[J]. Biomaterials, 2016, 83: 269-282.
                 dielectric polyethylene components employing ion fluence simulations   [41]  RAPHEL J, HOLODNIY M, GOODMAN S B, et al. Multifunctional
                                      2
                 and  optical  measurements  of  the  sp -dependent  reflectivity[J].  Nuclear   coatings  to  simultaneously  promote  osseointegration  and  prevent
                 Instrument and Methods in Physics Research B, 2018, 433: 98-105.   infection of orthopaedic implants[J]. Biomaterials, 2016, 84: 301-314.
            [26]  SUN Y M (孙彦敏), WANG Q L (王庆良), ZHANG L (张磊), et al.   [42]  WANG Z H, HUANG Z, GAN J J, et al. The fibroblast expression of
                 Tribological  properties  of  DLC  coating  on  surface  of  ultra-high   RANKL  in  CoCrMo-particle-induced osteolysis  is  mediated  by  ER
                 molecular weight polyethylene[J]. China Surface Engineering (中国  stress and XBP1s[J]. Acta Biomaterialia, 2015, 24: 352-360.
                 表面工程), 2010, 23(6): 45-50.                    [43]  LOVE C A, COOK R B, HARVEY T J, et al. Diamond like carbon
            [27]  FLORIAN P S, IRMGARD H G, TUOMAS W, et al. Antibacterial   coatings for potential application in biological implants-A review[J].
                 properties of silver containing diamond like carbon coatings produced by   Tribology International, 2013, 63: 141-150.
                 ion induced polymer densification[J]. Surface and Coatings Technology,   [44]  CHOUDHURY D, LACKNER J, FLEMING R A, et al. Diamond-
                 2011, 205(20): 4850-4854.                         like carbon coatings with zirconium-containing interlayers for orthopedic
   31   32   33   34   35   36   37   38   39   40   41