Lithium Complex Grease Lithium Grease with common difference is the thickening agent.
复合锂基润滑脂与普通锂基润滑脂不同之处是稠化剂。
The preparation method and parameter for lithium grease from waste fat and oil are studied.
研究了餐饮业废油脂制备皂基润滑脂的工艺路线和工艺条件。
Experiment results shows that the preparation process is exothermic reaction, and infrared results indicates that lithium grease has been synthesized.
试验表明该制备过程是个放热反应,红外结果说明合成了锂基润滑脂。
The metal protectant may influence other properties of complex lithium grease, but the polar polymer may not in-fluence ones of complex lithium grease.
金属保护剂会影响复合锂基脂的其它性能,而极性聚合物不会对复合锂基脂的其他性能产生不良影响。
The main technical index of it exceeds the extreme pressure lithium grease from Japan, and the lifespan of it is six times longer than the same product in China .
它的主要技术指标超过了日本极压锂基脂,使用寿命超过国产同名润滑脂的六倍以上,填补了国内轧辊轴承润滑脂的空白。
Bearing grease are commonly used calcium-based grease, grease sodium, calcium and sodium based grease, lithium grease, aluminum grease and molybdenum disulfide grease and so on.
轴承常用的润滑脂有钙基润滑脂、钠基润滑脂、钙钠基润滑脂、锂基润滑脂、铝基润滑脂和二硫化钼润滑脂等。
This paper makes an approach to density of EP Lithium-base grease and finds several related factors, which play a role in production.
本文从几个方面时稠度进行了探讨,基本上找出了一些与极压锂基脂稠度有关的因素,从而在生产上发挥了一定的作用。
Based on the rheological behaviour of lithium lubricating grease, the steady-state, transient-state and dynamic-state flow experiments were selected to obtain yield stress value.
根据锂基润滑脂的流变性质,采用稳态、瞬态和动态实验等方法测定了屈服应力值。
Lithium-calcium base grease, prepared by adding calcium soap into lithium base grease, can retain the multifunction of lithium base grease, reduce tie oast and improve the water resistance property.
锂基润滑脂中加入钙皂制成的锂一钙基脂,能保持锂基脂的性能,并降低成本,提高其抗水性。
Mobil 1 synthetic grease is an NLGI No 2 high-performance automotive grease which combines a synthetic base fluid with a lithium complex soap thickener.
美孚1号全合成车用油脂是一种由合成基础油及复合锂基增稠剂所调制之高性能的NLGI2号油脂。
The soap fiber of the said grease is similar to that of the compounded lithium base grease, the former is cheaper and its water resistance and anti wear properties are improved.
复合锂-钙基脂的皂纤维与复合锂基脂的类似,但产品的成本有所降低,产品的抗水性和抗磨性有所提高。
Rotated rheometer was used to determine the yield stress of lithium lubricating grease.
选用旋转流变仪测定了锂基润滑脂的屈服应力。
By lithium fatty acid soap thickener mineral oil and adding a variety of extreme pressure additives extreme pressure grease, exhibit excellent extreme pressure and antiwear property.
由脂肪酸锂皂稠化矿物油及配入多款极压添加剂的极压润滑脂,表现出绝佳的极压性及抗磨性。
Lithium complex grease is a kind of multifunction grease. The effect of compositions, process conditions and additives on the performance of lithium complex grease is discussed in this paper.
探讨了复合锂基润滑脂的组成、工艺和添加剂对复合锂基润滑脂性能的影响。
The experimental result is satisfied with the experiential model which is correlated with the change in Lithium-Calcium base grease cone penetration with…
添加不同质量分数的ZDDP的锂-钙基润滑脂经加水滚筒工作后,其锥入度变化的经验模型与实验结果吻合。
The influence of static thermal degradation on colloidal performance of Lithium-Calcium base grease was studied by the centrifugal oil separation test, dropping point test and acid number test.
利用离心分油试验机、油浴滴点测定仪和酸碱滴定仪分别考察了静态热老化对锂-钙基润滑脂胶体性能的影响。
The lithium-calcium base grease prepared in this paper touches the requirement of the standard of extreme pressure lithium and multipurpose lithium base grease for automobile.
制备的锂- 钙基脂性能达到了极压锂基脂和汽车通用锂基脂的技术指标要求。
The lithium-calcium base grease prepared in this paper touches the requirement of the standard of extreme pressure lithium and multipurpose lithium base grease for automobile.
制备的锂-钙基脂性能达到了极压锂基脂和汽车通用锂基脂的技术指标要求。
Results show that lithium - calcium complex soap is a promising thickener because of its good qualities, such as grease ability, oxide stability, water stability, lubricating capability, etc.
试验结果表明,复合锂钙皂具有良好的成脂能力、氧化安定性、抗水性和润滑性,是一种有广阔应用前景的润滑脂稠化剂。
Lithium complex grease caused the diversification of preparation.
导致复合锂基润滑脂制备工艺的多样化。
The effects of polyisobutene , LaF3, MCA, dialkyldithioaminoformaite on properties of lithium-calcium base grease have been discussed in this paper.
考察了聚异丁烯、氟化镧、三聚氰胺氰尿酸复合物(MCA)、硫代氨基甲酸盐对锂-钙基脂性能的影响。
The effects of polyisobutene , LaF3, MCA, dialkyldithioaminoformaite on properties of lithium-calcium base grease have been discussed in this paper.
考察了聚异丁烯、氟化镧、三聚氰胺氰尿酸复合物(MCA)、硫代氨基甲酸盐对锂-钙基脂性能的影响。
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