博碩士論文 109323040 完整後設資料紀錄

DC 欄位 語言
DC.contributor機械工程學系zh_TW
DC.creator彭奕晨zh_TW
DC.creatorI-CHEN PENGen_US
dc.date.accessioned2023-10-20T07:39:07Z
dc.date.available2023-10-20T07:39:07Z
dc.date.issued2023
dc.identifier.urihttp://ir.lib.ncu.edu.tw:444/thesis/view_etd.asp?URN=109323040
dc.contributor.department機械工程學系zh_TW
DC.description國立中央大學zh_TW
DC.descriptionNational Central Universityen_US
dc.description.abstract本研究採用雙面平衡法,以平衡轉子系統上的偏心慣性力,同時採用顆粒阻尼技術,使用顆粒與腔體之間的碰撞及摩擦消除系統的能量,以壓制轉子轉動時帶來的振動。本研究數值模型採用耦合離散元素法(Discrete Element Method, DEM)與有限元素法(Finite Element Method, FEM),分析含顆粒阻尼器偏心轉子的動態行為。本研究分析轉速與顆粒粒徑對偏心轉子動態行為的影響,動態反應包含中央軸心徑向位移、位移頻譜、軸承應力、轉子動能及彈性應變能。研究結果顯示:(1)偏心轉子的轉動行為均較平衡轉子更加不穩定,且偏心轉子造成的軸承應力皆大於平衡轉子的軸承應力。(2)顆粒阻尼器中阻尼顆粒與結構腔體間互相碰撞及摩擦可以降低轉子系統運轉時徑向位移、軸承應力、動能及彈性應變能。 (3)置入不同粒徑顆粒皆可達到很好的減振效果,2.0 mm顆粒體為較佳粒徑。(4)比較應力與徑向位移的關係,得知軸中央軸心的徑向位移越小則軸承應力越大。(5)加入不同顆粒粒徑於偏心轉子系統皆可以得到很好的消能效果,但顆粒粒徑對含顆粒阻尼器轉子系統的動能及彈性應變能影響甚小。zh_TW
dc.description.abstractThis study employs a dual-sided balancing method with particle dampers to counteract the eccentric inertial forces on rotor systems. A coupled DEM and FEM model is proposed to analyze the dynamic behavior of an eccentric rotor system incorporating granular dampers. The effects of rotational speed and particle size on the dynamic behavior of the system were investigated. The dynamic responses studied here included radial displacement, displacement spectrum, bearing stresses, and kinetic energy and strain energy of the rotor systems. Numerical results indicate that the unbalanced shaft shows more unstable dynamic behavior than balanced shaft. Additionally, the bearing stresses in the unbalanced shaft are higher than those of the balanced shaft. The collisions and friction between damping particles and mechanical parts effectively reduce radial displacement, vibration frequency, bearing stresses, and kinetic energy and strain energy of the rotor system. The installation of particles dampers leads to a significant reduction in vibration, especially for 2.0 mm particle dampers exhibiting the most favorable damping effect. Comparing the relationship between stresses and radial displacements, it is observed that as the radial displacements at the central part of the shaft decrease, the bearing stresses increase. The rotor system achieves effective energy dissipation with different kinds of particle sizes. However, the particle size has minimal impact on the kinetic energy and strain energy of the rotor system with particle dampers.en_US
DC.subject偏心轉子系統zh_TW
DC.subject顆粒阻尼器zh_TW
DC.subject耦合離散元素法與有限元素法zh_TW
DC.subject顆粒減振zh_TW
DC.subject徑向位移zh_TW
DC.subject軸承應力zh_TW
DC.subjecteccentric rotor systemen_US
DC.subjectparticle damperen_US
DC.subjectTwo-way Couple DEM-FEM Approachen_US
DC.subjectgranular vibration dampingen_US
DC.subjectradial displacementen_US
DC.subjectbearing stressesen_US
DC.title以耦合離散元素法與有限元素法分析含阻尼顆粒偏心轉子的動態行為zh_TW
dc.language.isozh-TWzh-TW
DC.type博碩士論文zh_TW
DC.typethesisen_US
DC.publisherNational Central Universityen_US

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