1) oiliness additive
油性剂
1.
By takeing deeply refined component oils of moderately viscosity as base oil,studing EP additives 、 oiliness additives used for L-MHEC22,reasonable formulation of the cutting oil was determined.
选用一定粘度的深度精制组分油为基础油,通过对L-MHEC22号切削油所用极压剂、油性剂的研究,确定了切削油的合理配方。
2.
According to the research results, the moderately refined component oils produced from Daqing crude oil are selected as the base oils, and an oiliness additive is used as the key additive, with appropriate functioning additives such as EP anti-wear,anti-rust and anti-oxidant additives.
论述极压型蜗轮蜗杆油系列产品的研制过程,着重研究基础油对添加剂的感受性及添加剂的复合效应,通过研究,选用大庆原油生产的适度精制深度的组分油为基础油,以油性剂为主剂,辅以适当的极压抗磨剂、防锈剂、抗氧剂等多种功能添加剂,研制的油品各项性能满足指标要求。
2) oiliness agent
油性剂
1.
The anti-slip performance of the different oiliness agents was emphatically investigated, and the effects caused by these oiliness agents on other performances of the oils such as antioxidant, antiwear, demulsibility and antifoaming were simultaneously tested.
重点考察不同类型油性剂的“防爬”性能以及对油品抗氧性、抗磨性、破乳性和抗泡性能的影响。
2.
Taking the synthesised acylamino nonionic surfact active agent as the oiliness agent,doped with other additives,YW2 water base fire resistant hydraulic fluid was prepared.
合成了酰胺基非离子表面活性剂作为油性剂,再加入其它添加剂,制备YW-2水基难燃液压液,论述了该液压液的特性、作用机理及应用情
3) oiliness improver
油性剂
1.
The mechanismis compared with that of oiliness improver and extreme - pressure lubricant, The result indicates that the improver of nano - particles in friction and wear is due to change friction or form tribo - healing film.
在与传统的油性剂和极压添加剂的抗磨减摩机理分析对比中发现:纳米粒子是通过改变摩擦方式、表面修复等来减小摩擦磨损的。
4) Oily Agent
油性剂
1.
These complex addi-tives were compounds of commonly used extreme pressure agents and oily agents that werediethide disulphide, chlorinated paraffin,o-tricresyl phosphate, zinc dialkyldithiophosphateand C12~C18 fatty alcohols, fatty acids, fatty acid formates, The effects of synergistic en-hancement of complex additives in bearing capacity and friction-r.
对常用极压剂二乙基二硫化物、氯化石蜡、磷酸三甲苯酯以及二烷基二硫代磷酸锌与C12~C18脂肪醇、脂肪酸、脂肪酸酯油性剂复合的油膜强度和摩擦因数进行测试,查明了它们复合后在增强承载能力上的增效性和对不同摩擦副减摩作用方面的增效性,为研制润滑荆对极压剂、油性剂的选择和配伍提供了依据。
5) EP additive
油性剂
1.
the EP additives have bad effects.
本文通过对15种不同添加剂配方的试验蜗轮蜗杆油进行传动效率台架评定试验,以考察不同类型、不同含量的极压抗磨剂、油性剂等对蜗杆副传动效率的影响结果。
6) oil performance
油剂性能
1.
The relationships between the oil performance,composit proportion,O.
并以D-337/D-623为例,着重探讨了油剂性能、组分比、含油率对涤纶短纤维可纺性的影响,提出了表征纤维可纺性的几项具体指标。
补充资料:油性剂
分子式:
CAS号:
性质:又称油性添加剂。烃链末端具有极性基的化合物。能在金属面上形成吸附膜,从而防止金属间的接触摩擦。主要有以下几种:(1)高级脂肪酸,如棕榈酸及油酸;(2)高级醇,如月桂醇及鲸蜡醇;(3)脂肪酸酯,如油脂及硬脂酸丁酯;(4)烷基胺,如鲸蜡基胺及油酰胺;(5)酸式磷酸酯,如酸式磷酸月桂酯及酸式磷酸油酰酯;(6)有机硫化合物,如硫化抹香鲸油及硫化油酸。
CAS号:
性质:又称油性添加剂。烃链末端具有极性基的化合物。能在金属面上形成吸附膜,从而防止金属间的接触摩擦。主要有以下几种:(1)高级脂肪酸,如棕榈酸及油酸;(2)高级醇,如月桂醇及鲸蜡醇;(3)脂肪酸酯,如油脂及硬脂酸丁酯;(4)烷基胺,如鲸蜡基胺及油酰胺;(5)酸式磷酸酯,如酸式磷酸月桂酯及酸式磷酸油酰酯;(6)有机硫化合物,如硫化抹香鲸油及硫化油酸。
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