Thermal Deformation Suppression Chip Based on Material Symmetry Design for Single Center Supported MEMS Devices

Xing, Bowen; Zhou, Bin; Zhang, Xinxi; Zhang, Wenming; Hou, Bo; Wei, Qi; Zhang, Tian; Zhang, Rong

doi:10.1109/access.2020.2977135

Cited by 3 publications

(1 citation statement)

References 27 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This is due to the elastic deformation of the slipper and the swashplate caused by the pressure, which increases the gap between them, and as the wear intensified, the pressure distribution of slipper decreased, which reduced the effect of the elastic deformation on the film thickness, making the difference reduced. From 750 min 850 min, the simulation results are gradually higher than the test results, which is due to the weakening of the influence of elastic deformation, and the wear increases the surface temperature of the slipper and the swashplate, which produces thermal expansion [37] and reduces the gap oil film. Fig.…”

Section: Test Resultsmentioning

confidence: 84%

A Mixed Lubrication Model for Predicting the Lubrication Performance Degradation Behavior of Slipper Pair in Early Wear Failure

Liu,

Li,

Sun

et al. 2023

IEEE Access

View full text Add to dashboard Cite

To reveal the lubrication performance degradation mechanism of the slipper pair in the highpressure piston pump during early wear failure. The three-dimensional fractal function has been used to construct the surface morphology of the slipper, and combined with the oil film thickness equation to establish a mixed lubrication model of the slipper pair considering the microscopic change of the surface during the wear process. Based on the fractal theory, a method using fractal parameters (fractal dimension D and scale coefficient G) to describe the surface morphology change during the wear process is proposed. The variation of surface morphology, oil film thickness and pressure distribution of the slipper during wear degradation process are discussed, and the effect of wear depth on the degradation laws of leakage and oil film supporting force are analyzed. Finally, the wear degradation state simulation test of the slipper pair is carried out. The information on surface morphology, oil film thickness and leakage during wear process is recorded for the verification of the theoretical model. The proposed model can lay a theoretical foundation for accurately evaluating the performance degradation of the slipper pair and improving the fault prediction and predictive maintenance level of high-pressure piston pumps.INDEX TERMS Early wear, failure prediction, lubrication characteristics, piston pump, slipper pair.

show abstract

Section: Test Resultsmentioning

confidence: 84%