In the working process of the axial piston pump, the composite multi-degree motion of the slipper and its coupling, as well as the complex working conditions, cause the slipper to overturn and collide irregularly with its coupling. The overturning of the slipper leads to partial abrasion of the slipper, and the magnitude of the force generated by direct solid contact between the slipper and the swash plate significantly impacts the wear speed of the slipper. This article is based on the rigid-flexible coupling model of the axial piston pump jointly established by Adams and Ansys. It analyzes the collision relationship between the slipper and its coupling, the overturning behavior characteristics of the slipper, and the variation law in the ...
The performance of hydrostatic type slippers in axial piston pumps has been studied both experimenta...
This thesis investigates the slipper/swash plate interface in swash plate–type axial piston machines...
International audienceEfficiency improvement is a key issue in any machine. The fluid power industry...
This paper reports an analysis of the lubrication mechanism and the dynamic behaviour of axial pisto...
This paper reports an analysis of the lubricationmechanism and the dynamic behaviour of axial piston...
This thesis is focused on slipper behaviour during operation, slipper behaviour during swashplate tu...
This study considers an analytical approach towards the understanding of the hydrostatic leakage an...
Axial piston pumps are universal displacement machines that are used in a vast variety of applicatio...
The paper presents problems related to the twisting moment of the slipper. The load of the slipper a...
The paper presents the results of an experimental and theoretical investigation of the effect of cla...
Engineering of the sliding interfaces within swashplate type axial piston machines represents the mo...
A stationary model is adopted to determine the criticalcondition for which the slipper moves away fr...
By discretizing the contact area between the external retainer plate and the external spherical hing...
This paper represents the results of an experimental investigation of the performance of hydrostatic...
The swash-plate axial piston pump is one of the most widely used pumps due to its simplicity and com...
The performance of hydrostatic type slippers in axial piston pumps has been studied both experimenta...
This thesis investigates the slipper/swash plate interface in swash plate–type axial piston machines...
International audienceEfficiency improvement is a key issue in any machine. The fluid power industry...
This paper reports an analysis of the lubrication mechanism and the dynamic behaviour of axial pisto...
This paper reports an analysis of the lubricationmechanism and the dynamic behaviour of axial piston...
This thesis is focused on slipper behaviour during operation, slipper behaviour during swashplate tu...
This study considers an analytical approach towards the understanding of the hydrostatic leakage an...
Axial piston pumps are universal displacement machines that are used in a vast variety of applicatio...
The paper presents problems related to the twisting moment of the slipper. The load of the slipper a...
The paper presents the results of an experimental and theoretical investigation of the effect of cla...
Engineering of the sliding interfaces within swashplate type axial piston machines represents the mo...
A stationary model is adopted to determine the criticalcondition for which the slipper moves away fr...
By discretizing the contact area between the external retainer plate and the external spherical hing...
This paper represents the results of an experimental investigation of the performance of hydrostatic...
The swash-plate axial piston pump is one of the most widely used pumps due to its simplicity and com...
The performance of hydrostatic type slippers in axial piston pumps has been studied both experimenta...
This thesis investigates the slipper/swash plate interface in swash plate–type axial piston machines...
International audienceEfficiency improvement is a key issue in any machine. The fluid power industry...