不同抗冲击分析方法对水润滑轴承的适用性分析

Applicability of different anti-shock analysis methods to water-lubricated bearings

  • 摘要:
    目的 针对船舶推进轴系水润滑轴承的不同抗冲击性能分析方法,开展适用性对比研究。
    方法 分别采用动态设计分析方法(DDAM)、基于BV0430/85的时域分析法、瞬态动力学方法和试验分析方法,对某水润滑艉轴承进行抗冲击性能分析。通过对比4种方法的输入冲击谱和应力结果,分析其各自的冲击环境强度和对水润滑轴承的适用性。
    结果 根据轴承法兰处和板条处的应力结果:DDAM的计算值最大,其次是时域分析法,计算值最小的是瞬态动力学方法。该水润滑轴承模型采用DDAM分析时出现了冲击输入偏大且集中的现象,故存在一定的局限性;时域分析法与瞬态动力学方法均为时域上的实时模拟法,前者适用于严苛环境,后者则可用于灵活设计冲击谱;虽然试验分析方法具备准确、可靠等优点,但其成本较高。
    结论 研究结果可为水润滑轴承的结构优化提供参考。

     

    Abstract:
    Objectives This study comprehensively investigates the applicability of different anti-shock analysis methods to the water-lubricated bearing of a marine propulsion shaft system.
    Methods The dynamic design analysis method (DDAM), BV0430/85-based time domain analysis method, transient dynamics method and experimental analysis method are respectively used to analyze the anti-shock properties of a water-lubricated stern bearing. The comparative analysis involves assessing the input shock spectrum and stress outcomes generated by each method, offering insights into the robustness of their respective shock environments and suitability for water-lubricated bearings.
    Results After analyzing the stress results at the bearing flange and slab, the results show that the DDAM method has the largest result, followed by the time domain analysis method, and the transient dynamics method has the smallest result. The water-lubricated bearing model has certain limitations in terms of large and concentrated shock inputs when analyzed by DDAM. The time domain analysis method and transient dynamics method are both real-time simulation methods in the time domain, and the former can be chosen in harsh environments, while the latter allows for the flexible design of the shock spectrum. The experimental analysis method is accurate and reliable, but the cost is too high.
    Conclusions The findings of this study offer valuable insights that can serve as references for the optimization of water-lubricated bearing structures.

     

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