方位(导航)
流体静力平衡
润滑
剪切(物理)
机械工程
静水压力
热的
支承面
材料科学
热传导
工程类
机械
计算机科学
复合材料
热力学
物理
量子力学
人工智能
作者
Xiaodong Yang,Jian Zhang,Hongbo Liu,Xianli Liu,Feilin Liu,Wei Feng Liu
标识
DOI:10.2174/1872212117666221005094400
摘要
Background: With the continuous development of the modern machinery industry, the technical level of rotating machinery is increasing. As a key component of the bearing system and power transmission system in rotating machinery, the hydrostatic bearing has higher performance requirements in all aspects. When the system is working normally, due to the shearing effect of the lubricating oil driven by the spindle rotation, a large amount of heat will be generated. The system will generate thermal effects on the bearing through heat accumulation and heat conduction. The thermal effect will directly reduce the viscosity of the hydraulic oil, affecting the bearing capacity. Seriously, it will cause thermal deformation of the parts, which will affect the normal operation of the bearing, and even cause an accident. Objective: Analysis and discussion on the thermal effect of hydrostatic bearing in recent years Method: More than 70 recently published patents were reviewed, as well as journal and conference papers on hydrostatic bearings. The results of temperature fields, pressure fields, deformation, lubrication, bearing capacity and friction were studied. Results: This review summarizes the research results from three aspects: the influencing factor of temperature rise, the influence of temperature rise on bearing structure and performance, and the effective control of temperature rise. Conclusion: The relevant research methods are analyzed. The problem of thermal effect of hydrostatic bearing is summarized and prospected, and the future development can be expected.
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