Optimization design of a two-stage multidirectional vibration isolation system for large airborne equipment

IF 1.7 4区材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Multidiscipline Modeling in Materials and Structures Pub Date : 2023-12-14 DOI:10.1108/mmms-06-2023-0198

Hongyan Zhu, Xiaochong Wu, Pengzhen Lv, Yuansheng Wang, Huagang Lin, Wei Liu, Zhufeng Yue

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Abstract

Purpose Improvement and optimization design of a two-stage vibration isolation system proposed in this paper are conducted to ensure the device of electronic work effective.Design/methodology/approach The proposed two-stage vibration isolation system of airborne equipment is optimized and parameterized based on multi-objective genetic algorithm.Findings The results show that compared with initial two-stage vibration isolation system, the angular vibration of the two-stage vibration isolation system becomes 3.55 × 10-4 rad, which decreases by 89%. The linear isolation effect is improved by at least 67.7%.Originality/value The optimized two-stage vibration isolation system effectively improves the vibration reduction effect, the resonance peak is obviously improved and the reliability of the mounting bracket and the shock absorber is highly improved, which provides an analysis method for two-stage airborne equipment isolation design under complex dynamic environment.

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大型机载设备双级多向隔振系统的优化设计

目的对本文提出的两级隔振系统进行改进和优化设计，以确保电子工作装置的有效工作。设计/方法/途径基于多目标遗传算法对提出的机载设备两级隔振系统进行优化和参数化。原创性/价值优化后的两级隔振系统有效提高了减振效果，共振峰值明显改善，安装支架和减震器的可靠性大幅提高，为复杂动态环境下的机载设备两级隔振设计提供了一种分析方法。

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