润滑油添加剂

  • 网络Oil Additive;lubricating oil additives;Lubricant Additives
润滑油添加剂润滑油添加剂
  1. 我国润滑油添加剂经过几十年的攻关,无论是质量还是数量都有长足的进展,已经具备了研制及开发的力量。

    After decades of research , lubricant additives have made great progress on both quality and quantity .

  2. 清净分散剂是一类重要的润滑油添加剂,广泛应用于船用发动机油中。

    Detergents and dispersants are important class of lubricant additives , which are widely used in marine engines .

  3. C(60)/C(70)作为润滑油添加剂的摩擦学性能研究

    Study on the Tribological Behavior of C_ ( 60 ) / C_ ( 70 ) as an Oil Additive

  4. 用X荧光光谱法分析润滑油添加剂中的磷

    Determination of phosphorus in lubricant additive using formed filter paper by X-ray fluorescence spectrometry

  5. 润滑油添加剂(MOS2)对发动机性能影响的试验研究

    Study on Influence of M_OS_2 Lubricant Additive on Engine Performance

  6. 润滑油添加剂对MC尼龙油润滑摩擦学性能的影响

    Effects of Oil Additives on Friction and Wear Properties of MC Nylon

  7. 纳米CaCO3、Cu混合物润滑油添加剂的摩擦学性能

    Tribological Performances of Lubricating Oils Additives of Mixtures of Nano-CaCO_3 and Nano-Cu

  8. DDP表面修饰ZnS纳米微粒作为润滑油添加剂的SEM研究

    SEM Study of DDP - Coated ZnS Nanoparticles as Additive in Lubricating Oils

  9. 将制成的ZnO纳米微粒作为润滑油添加剂,在摩擦磨损实验机上对其摩擦学特性进行了研究。

    Tribological performances of ZnO nano-particles as lubricating oil additives were studied in friction and wear test machine .

  10. 纳米ZnS粒子作为润滑油添加剂摩擦学性能研究

    Investigation on Tribological Performance of ZnS Nanoparticles as Additives in Lubricant

  11. 和Fe,xs数量减少,向生成。含氮化合物作为润滑油添加剂的抗磨减摩机理研究

    XS compounds . Friction-reducing and Antiwear Mechanism of N-containing Compounds as Lubricating Additive

  12. 纳米SiO2的表面改性及作为润滑油添加剂的研究进展

    Progress in Surface Modification of SiO_2 Nano-particles and Its Application as Lubricating Oil Additives

  13. 纳米Fe3O4粒子粒径对其作润滑油添加剂摩擦学性能的影响

    Effect of the Particle Size on Tribological Properties of Nanometer Fe_3O_4 as Lubricating Oil Additives

  14. 用硅烷偶联剂修饰的纳米Fe3O4粒子作为润滑油添加剂的摩擦学性能研究

    Study on the Tribological Properties of the Oils Adding Fe_3O_4 Nanoparticles Modified with Silicon Coupling Agent

  15. 结果表明,DDP修饰ZnS纳米微粒作为润滑油添加剂能够明显提高基础油的抗磨能力。

    The results show that DDP-coated ZnS nanoparticles as oil additive can effectively enhance the antiwear ability of the base oil at low additive concentration .

  16. 纳米SiO2用作润滑油添加剂的研究尚处于起步阶段,但从研究结果看出,它具有优良的摩擦学性能。

    The research of SiO_2 nanoparticles as lubricating oil additives is still in its starting stage , while it possesses excellent tribological performance according to the test result .

  17. GSBT高效多功能有机棚酸酯润滑油添加剂是一种主体组分为含硫、磷、氮等元素的复合硼剂。

    The high-effective multifunctional lube oil additive ( GSBT ), being a borates com-plex containing S , P and N , was evaluated on SRV and four-ball testers .

  18. 首先,采用球磨&自转化法成功的制备出了WS2纳米棒,并研究其作为润滑油添加剂的摩擦学性能。

    WS2 nanorods were prepared successfully by the ball milling-self-transformation method . Moreover , the tribological properties of WS2 nanorods as oil additive were also investigated .

  19. 用四球摩擦磨损试验机评价了油溶性γFe2O3纳米颗粒作为润滑油添加剂对液体石蜡减摩抗磨作用的影响。

    The effect of the synthetic product as additive in liquid paraffin on its friction-reducing and antiwear ability was evaluated on a four-ball machine .

  20. S-P-B-N型润滑油添加剂的制备与应用

    Synthesis and Application of Lubricating Oil Additive S-P-B-N Type

  21. 研究了一种S-P-B-N型润滑油添加剂的制备方法。

    This paper studied a preparing method of lubricating oil additive S-P-B-N type .

  22. 进一步分析了各种空调制冷用润滑油添加剂的作用机理,并对极化制冷润滑油添加剂PROA的作用效果进行了试验研究。

    The mechanism of various additives is studied and experiments are carried out to test the function of polarized lubricant additive PROA .

  23. 用多功能SRV试验机考察了几种热轧用典型润滑油添加剂及其复配体系的高温减摩性能。

    The friction coefficients of four lube additives used in hot rolling and their complex systems were investigated at high temperature using SRV multifunctional test system .

  24. 安达AW-1T型抗磨节能润滑油添加剂的研究

    Study on anda aw-1t antiwear and saving on energy lubricating oil additive

  25. 二烷基硫代磷酸锌(T202)是润滑油添加剂的一种。

    ZDDP ( T-202 ) is one of the lube oil additive .

  26. 该方法可将添加剂中的水分脱除至0.1%以下,脱水时间从原工艺的2~3天,缩短至2h左右,缩短了润滑油添加剂生产周期,同时还降低了生产能耗。

    Water in additive was effectively removed to below 0.1 % by this improved process in about 2h instead of 2-3 days with the original process . The production cycle was much shorter and energy consumption reduced .

  27. 最后提出其作为润滑油添加剂的发展趋势,即纳米SiO2粒子的制备和表面修饰的一体化,制备高聚物-纳米SiO2杂化粒子以及对其摩擦学机理进行研究。

    The direction of research in this field , such as one-step of preparation and surface modification of SiO2 nano-particles , study on the polymer - SiO2 inorganic hybrid nano-particles and acting mechanism of SiO2 nano-particles , was pointed out .

  28. 采用二氧化碳超临界干燥技术制备了粒径为10~20nm的硼酸铜颗粒,并测定了其用作润滑油添加剂的摩擦学性能。

    Nanometer copper borate with a particle size of about 10 ~ 20 nm was prepared using carbon dioxide supercritical dry technique .

  29. 合成了基础油中分散性良好的油酸(OA)修饰PbS纳米粒子,并用四球摩擦磨损试验机考察了其作为润滑油添加剂的摩擦学行为。

    Oleic acid ( OA ) capped PbS nanoparticles with good dispersion capacity in lubricating oils were prepared using surface modification methods . Four-ball wear test was used to evaluate the tribological behaviour of the capped nanoparticles as oil additives .

  30. 结果表明,所得样品为Pb-Sn二元合金;其作为润滑油添加剂具有一定的减摩抗磨效果。

    Results indicate that the as-synthesized products are Pb-Sn dualistic alloys . And as lubricating oil additives they showed friction reducing and antiwear abilities to some extent . 2 .