The Influence of Main-Bearing Asperity-Contact on Combustion-Induced Vibration of a Diesel Engine.
主軸受粗さ接触がディーゼルエンジンの燃焼起因振動に与える影響
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- Publication code
- 20224161
- Paper/Info type
- JSAE Transaction
Vol.53 No.2
- Pages
- 314-319(Total 6 p)
- Date of publication
- Mar 2022
- Publisher
- JSAE
- Language
- Japanese
Detailed Information
Category(J) | 研究論文 Translation |
---|---|
Category(E) | ResearchPaper |
Author(J) | 1) 小口 瞳史, 2) 荻山 彪吾, 3) 三上 真人 |
Author(E) | 1) Hitoshi Oguchi, 2) Hugo Ogiyama, 3) Masato Mikami |
Affiliation(J) | 1) 山口大学大学院, 2) 山口大学大学院, 3) 山口大学大学院 |
Abstract(J) | ディーゼルエンジンにおいて,燃焼衝撃の伝達経路である主軸受では燃焼衝撃によって粗さ接触が生じることがあるが,粗さ接触圧力の有無によって燃焼起因振動の伝達特性,減衰特性が変化することが筆者らの研究によって示唆されているため,主軸受粗さ接触が燃焼起因振動に与える影響をシミュレーションによって解析した. Translation |
Abstract(E) | We investigated the influence of main-bearing asperity contact on combustion-induced vibration of a diesel engine by simulation. Main findings are as follows: As the viscosity of engine oil is increased, the asperity-contact pressure for a main bearing decreases and thus both vibration-transmission efficiency and decay rate decrease. The contribution of vibration-transmission efficiency to the engine outer-surface vibration is bigger than that of decay rate and thus the engine outer-surface vibration becomes small. Both asperity-contact pressure and oil-film pressure become small if the partial contact to the main bearing by crank-shaft elastic deformation is reduced by properly changing the main-bearing angle. As in the case of an increase in the oil viscosity, both vibration transmission efficiency and decay rate become low, leading to a decrease in the engine outer-surface vibration. |