转移膜

  • 网络transfer film
转移膜转移膜
  1. MoS2转移膜与金属底材表面间的相互作用机理

    The Interaction Mechanism of MoS_2 Transfer Film with Metal Surfaces

  2. 在磨损过程中仍能形成转移膜,但因少量Si的掺入,推迟了转移膜的形成时间。

    Although graphitic transfer film still formed during wear testing , their formation time was delayed because of the doping of a small amount of Si .

  3. PTFE复合材料与其转移膜的摩擦学对应性研究

    The Study of Correspondence on Tribology of PTFE Composites and Its Transfer Films

  4. 但是对于表面粗糙度最高的陶瓷,由于Fe转移膜的物理吸附,出现了负磨损现象。

    For ADZ ceramic whose surface roughness is the highest , negative wear of ADZ ceramic takes place due to steel transfer .

  5. 纳米ZrO2填充PEEK的摩擦表面和转移膜聚醚醚酮复合材料的转移膜研究

    SEM investigations of worn surfaces and transfer films of PEEK filled with nanometer zro_2

  6. 但在磨损过程中,因掺入Si阻碍了石墨转移膜的形成,摩擦系数提高,耐磨性降低。

    Due to the doping of Si , the formation of graphite transfer layer was hindered ; the fiction coefficient increased ; the wear resistance decreased .

  7. 结果表明PEEK能在对偶面上形成不连续、厚薄不均的转移膜;

    Results show that discontinuous and non-uniform transfer films is formed on the counter surface by PEEK .

  8. MoS2与金属表面摩擦后生成转移膜的研究&Ⅱ.MoS2转移膜与钢摩擦时的化学效应

    A Study of Transfer Films in The Friction of MoS_2 & metal Surfaces I Chemical Reaction Between Steel and Rubbed Transfer film

  9. 利用扫描电镜(SEM)对聚四氟乙烯基固体润滑剂摩擦表面及在45钢表面所形成的润滑转移膜形貌进行表征;

    The polytetrafluoroethylene ( PTFE ) - based bonded solid lubricant coating and the surface of lubricating metastasis membrane forming on the surface of 45 # steel were detected using scanning electron microscope .

  10. 对细粒子来说(如小于2μm的PTFE)能在对磨件表面形成转移膜,降低摩擦系数,其磨损率略有提高。

    Fine particles ( as PTFE particles < 2 μ m ) came off constantly and formed a transfer film on the surface of the friction couple .

  11. 用XPS表征碳纤维表面、固体润滑剂摩擦前后表面、润滑转移膜表面的元素组成、价态变化;

    The composition and valence state of elements in the surface of carbon fiber , solid lubricant before and after friction test and lubricant transfer film were characterized by XPS ;

  12. 用SEM考察了聚酰亚胺薄膜的磨痕形貌和对偶Si3N4陶瓷球表面的转移膜的形貌。

    The morphologies of the worn polyimide films and their transfer films on the counterpart Si 3N 4 ball surface were observed with a scanning electron microscope .

  13. 结果表明:Fe-Cr-Ni耐磨涂层具有优良的抗磨减摩性能,对摩试环磨损表面形成转移膜。

    The results showed that electric arc spray Fe-Cr-Ni coating had good tribological property under the dry friction condition .

  14. 通过对摩擦轨迹的电子探针检测发现,PTFE在摩擦过程中于摩擦表面形成了转移膜,因而改善了润滑成膜膏的摩擦学性能。

    It was found that PTFE formed a transfer film on the rubbing surfaces during friction process by using electron probe , this is the cause for improving the tribological properties of lubricating film-forming pastes .

  15. 利用EPM-810Q型电子探针对PTFE基自润滑复合材料的磨损农面及其在对偶表面的转移膜进行了考察,探讨了PTFE基自润滑复合材料的摩擦磨损机理。

    The worn surfaces and transfer films on the mating surfaces were examined using EPMA . The friction and wear mechanisms of PTFE-based self lubricating composites were discussed .

  16. 纤维状碳纳米管可以阻止PTFE带状结构的大面积破坏,以及在摩擦过程中于偶件表面能够形成转移膜并隔离复合材料与偶件的直接接触是其减摩耐磨作用的主要原因。

    The reasons the wear of PTFE is decreased are probably that fibers in CNTs resisted severe mangle of PTFE strip structure , and that films transferred from counterpart surface prevented direct contact between PTFE composite and steel ring .

  17. 薄膜的减摩抗磨性能同其在Si3N4陶瓷球偶件磨损表面形成的转移膜相关。

    Moreover , the friction and wear behavior of the DLC film was also dependent on its transfer film formed on the worn surface of the counterpart Si_3N_4 ball .

  18. 当PEO加入到POM/PTFE纤维复合材料中时,能够加强对偶面的转移膜的形成,从而进一步改善了材料的摩擦和磨损行为。

    The addition of PEO into POM / PTFE fiber composites could enhance the formation of transfer film on the mating surfaces during sliding contact , and thus further improved the friction and wear performance .

  19. 采用金属铜的微米粒子和纳米粒子作为聚四氟乙烯(以下记为:PTFE)的改性添加剂,研究了改性后PTFE的摩擦学性能和摩擦转移膜的形成和稳定性。

    By the analysis of the tribological properties and the forming and stability of friction transfer films of PTFE composites modified by micro and nano metal particles respectively , the different forming and stability mechanisms of polymer friction transfer films are posted in the paper .

  20. 与POM/M-UHMWPE(95/5)和POM/LLDPE/EAA(90/10/4)共混物对磨时,钢环表面并未出现明显的转移膜,而是一层薄而均匀的润滑层。

    No transfer layer but the very thin and even lubricating film could be found in case the steel ring surface sliding with POM / M-UHMWPE ( 95 / 5 ) and POM / LLDPE / EAA ( 90 / 10 / 4 ) blends .

  21. 结果表明该自润滑球轴承在径向/轴向载荷为2940/3920N条件下能够从保持架上获得足够的转移膜润滑,而在载荷达到3900/5800N时失效。

    The results show that the bearing operated well in the presence of lubricating film transferred from the retainer under radial load of 2940N and axial load of 3920N , but failed under radial load of 3900N and axial load of 5800N .

  22. 二硫化钼转移膜的X-射线衍射研究

    A Study of X-ray Diffraction on MoS_2 Transfer Films

  23. 阳性反应在硝基纤维转移膜上形成深浅不等的褐色斑点。

    As positive reaction dots brown were produced on the nitrocellulose transfer membrane .

  24. 聚醚醚酮复合材料的转移膜研究

    A Study on the Transfer Films of PEEK Composites

  25. 聚砜热相转移膜的研制

    Preparation of polysulfone thermal phase inversion membrane

  26. 聚合物及其改性材料润滑与密封转移膜形成与密封机理分析

    Analysis of Transfer - film Forming and ' Sealing Mechanism of Polymer and Modified Polymer

  27. 硬质合金刀片的磨损缓慢,其磨损主要是由于刃口上高分子转移膜脱落引起的。

    Cemented carbides cutter blade wear slightly , its main wear mechanism is separation of transferred film .

  28. 完成了转移膜制备试验台的设计、安装、调试和初步试验。

    A tester was design to fabricate the composite film , which has been successfully installed and trial run .

  29. 摩擦表面固体润滑剂转移膜的形成能够有效地减少摩擦副表面间的粘着现象,是改善轴承摩擦磨损性能的主要原因。

    The transfer film of solid lubricant on friction surface can reduce effectively the adhesion of surfaces of friction pairs .

  30. 这类硫化物纳米微粒用作润滑油添加剂能够在摩擦副表面形成转移膜,从而提高了基础油的抗磨性能。

    The sulfide nanoparticles as lubricating additives can improve the antiwear properties of base oil by forming lubrication film between rubbing surfaces .