8号液力传动油低温表观黏度的相关性研究

石油炼制与化工 ›› 2024, Vol. 55 ›› Issue (5): 157-164.

8号液力传动油低温表观黏度的相关性研究

揭斌华¹,谢颖²,王雪梅¹,李志英¹

1. 中国石化润滑油有限公司茂名分公司
2. 广东石油化工学院化学工程学院

收稿日期:2023-10-13 修回日期:2024-01-22 出版日期:2024-05-12 发布日期:2024-05-06
通讯作者: 谢颖 E-mail:mmcxieying@163.com

STUDY ON CORRELATION OF LOW TEMPERATURE APPARENT VISCOSITY OF No.8 HYDRAULIC TRANSMISSION OIL

Received:2023-10-13 Revised:2024-01-22 Online:2024-05-12 Published:2024-05-06

摘要/Abstract

摘要： 为满足8号液力传动油精益生产的需要，实现调合中控室对8号液力传动油低温表观黏度的预测与把控，通过不同原材料制备的8号液力传动油的物理性能与低温表观黏度的相关性研究，利用响应曲面法和Design-expert 12.0软件进一步研究密度、黏度指数、运动黏度与低温表观黏度的相关性，掌握低温表观黏度的变化规律，建立低温表观黏度预测模型。结果表明：8号液力传动油的运动黏度(A）、黏度指数（B）、20 ℃密度（C）与低温表观黏度（Y）的相关性高，拟合得到低温表观黏度回归方程：Y=2 032.74+123.28 A-1 142.98 B + 574.01 C+680.72 AB-1 294.84 AC-1 091.62 BC，经过8个批次不同原材料生产的8号液力传动油的应用验证，低温表观黏度预测值与实测值基本一致，回归方程模型的可靠性高。

关键词: 8号液力传动油, 低温表观黏度, 黏度指数, 密度, 运动黏度, 相关性

Abstract: In order to meet the needs of the lean production of No.8 hydraulic transmission oil and achieve the prediction and control of the low temperature apparent viscosity of No.8 hydraulic transmission oil in the blending control room, the correlation between the physical properties and the low-temperature apparent viscosity of No.8 hydraulic transmission oil prepared from different raw materials was studied. In order to grasp the change rule of apparent viscosity at low temperature and establish a prediction model of apparent viscosity at low temperature,the correlation between density, viscosity index, kinematic viscosity and low-temperature apparent viscosity was further studied by using the response surface methodology and Design-expert 12.0 software. The results showed that the kinematic viscosity (A), viscosity index (B) and 20 ℃ density (C) of No.8 hydraulic transmission oil hada high correlation with low-temperature apparent viscosity. After fitting, the regression equation of apparent viscosity at low temperaturewas (Y)obtained: Y=2 032.74+123.28 A-1 142.98 B + 574.01 C+680.72 AB-1 294.84 AC-1 091.62 BC,which was verified by the application of No.8 hydraulic transmission oil produced by 8 batches of different raw materials, the predicted value of apparent viscosity at low temperature was basically consistent with the measured value, and the reliability of the regression equation model was high.

Key words: No.8 hydraulic transmission oil, low temperature apparent viscosity, viscosity index, density, kinematic viscosity, correlation

揭斌华谢颖王雪梅李志英. 8号液力传动油低温表观黏度的相关性研究[J]. 石油炼制与化工, 2024, 55(5): 157-164.

参考文献

[1]姜禹,徐晶晶,高洁等.工程机械液力传动油性能要求及发展趋势[J].液压气动与密封,2020,40(04):1-5. [2]陈惠卿,韦安柱,汤涛.液力元件的分类、特点及其对油品的性能要求[J].石油商技,2007(01):46-50. [3]姜禹,徐晶晶,张伟光等.重负荷液力传动油发展趋势[J].液压气动与密封,2020,40(08):1-6+12. [4]杨家栋,李元鸿,李明慧.TO-4重负荷车辆液力传动油的性能及应用[J].润滑油,2018,33(03):19-23. [5]王俊,刘婷,石顺友.润滑油基础油组成及物性与低温动力粘度的关系研究[J].广东化工,2014,41(23):43-45+56. [6]张鸣,翁惠新.润滑油基础油氧化安定性关联模型的改进[J].石油炼制与化工,2004(01):66-70. [7]杨雨富,孙聚华,车浩等.黏度指数改进剂对油品性能的影响[J].弹性体,2018,28(03):55-58. [8]钮晓予.润滑油低温表观粘度测定及影响因素[J].广东化工,2017,44(08):44-45. [9]张美琼,王燕,张静,马蕊燕,王凯明,张霞玲,何军.润滑油基础油组成对低温性能的影响[J].润滑油,2019,34(05):61-64. [10]费逸伟,彭显才,吴楠,马军,赵鹏程,何涛.润滑油结构组成与黏度及黏温特性的相关性分析[J].当代化工,2017,46(08):1668-1670+1674. [11]王雪梅,朱旭莹,梁志顺等.基于加氢基础油的75W-90车辆齿轮油低温性能研究[J].石油商技,2011,29(01):40-43. [12]杨定中.液体粘度的关联式计算[J].化工设计,1996(01):40-43. [13]王秀文,陈文艺,邹恺.润滑油基础油结构组成与性能关系研究进展[J].应用化工,2014,43(03):539-542. [14]赵刘闯,刘全军,梁远琴等.响应曲面优化某铜精矿碱浸除砷试验研究[J].有色金属工程,2019,9(01):63-69. [15]王玉睿涵,何懿峰,刘辉等.电位滴定法测定润滑油酸值的影响因素及条件优化研究[J].石油炼制与化工,2023,54(06):111-119.