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Research on the influence of key structural parameters on piston secondary motion
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AbstractPiston secondary motion not only influences the side knocking of piston and frictional loss, but also influence the in-cylinder oil consumption and gas blow-by. An inline four-cylinder common rail diesel engine was chosen as the research object. Dynamic simulation model of piston assembly was built based on the piston and cylinder liner temperature field test. The impacts of pinhole offset, liner clearance and piston skirt ovality on piston secondary motion were researched. Based on the surface response method, the influence of multiple factors on friction power loss and slapping energy is estimated. The results indicate that: in-cylinder stress condition of piston will change with its structural parameters, then the secondary motion of piston will be affected as a result. Pinhole offset, liner clearance, piston skirt ovality and the interaction of the latter two all have significant effects on the friction power loss, while the slapping energy is significantly affected by liner clearance. Therefore, the parameters can be designed based on the significance level to optimize the secondary motion characteristics of the piston.
Springer Science and Business Media LLC
Title: Research on the influence of key structural parameters on piston secondary motion
Description:
AbstractPiston secondary motion not only influences the side knocking of piston and frictional loss, but also influence the in-cylinder oil consumption and gas blow-by.
An inline four-cylinder common rail diesel engine was chosen as the research object.
Dynamic simulation model of piston assembly was built based on the piston and cylinder liner temperature field test.
The impacts of pinhole offset, liner clearance and piston skirt ovality on piston secondary motion were researched.
Based on the surface response method, the influence of multiple factors on friction power loss and slapping energy is estimated.
The results indicate that: in-cylinder stress condition of piston will change with its structural parameters, then the secondary motion of piston will be affected as a result.
Pinhole offset, liner clearance, piston skirt ovality and the interaction of the latter two all have significant effects on the friction power loss, while the slapping energy is significantly affected by liner clearance.
Therefore, the parameters can be designed based on the significance level to optimize the secondary motion characteristics of the piston.
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