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STATIC AND DYNAMIC CHARACTERISTIC ANALYSIS AND MULTI-OBJECTIVE TOPOLOGY OPTIMIZATION OF GEARBOX
To address the issue of gearboxes’ vibration and noise, multi-objective topology optimization was adopted to optimize the box structure.First, a combination weighting method known as game theory comprehensive analytic hierarchy process and grey correlation was proposed to allocate optimal weight values to sub-objectives. At the same time,the iterative curves of the optimization results of the three weighting methods were compared to verify the advantages of the combination weighting method.Then, the compromise programming method was used to normalize the sub objectives to obtain the comprehensive objective function.Finally, based on the topology optimization results, stress displacement nephogram,and modal shapes, the box structure was improved.Compared with the original box,the improved box reduces the mass by 11.2%, the maximum stress of the box decreases by 39.6%, the displacement decreases by 5.1%, the node displacement amplitude response decreases by 82.8%, and the all first four-order frequencies increase.The proposed weight allocation method improves the disadvantages of low reliability of sub objective weight value allocation and ignoring subjective judgment, realizes the lightweight of the box. After the improvement of the box structure, the static and dynamic performances are significantly improved.
STATIC AND DYNAMIC CHARACTERISTIC ANALYSIS AND MULTI-OBJECTIVE TOPOLOGY OPTIMIZATION OF GEARBOX
To address the issue of gearboxes’ vibration and noise, multi-objective topology optimization was adopted to optimize the box structure.First, a combination weighting method known as game theory comprehensive analytic hierarchy process and grey correlation was proposed to allocate optimal weight values to sub-objectives. At the same time,the iterative curves of the optimization results of the three weighting methods were compared to verify the advantages of the combination weighting method.Then, the compromise programming method was used to normalize the sub objectives to obtain the comprehensive objective function.Finally, based on the topology optimization results, stress displacement nephogram,and modal shapes, the box structure was improved.Compared with the original box,the improved box reduces the mass by 11.2%, the maximum stress of the box decreases by 39.6%, the displacement decreases by 5.1%, the node displacement amplitude response decreases by 82.8%, and the all first four-order frequencies increase.The proposed weight allocation method improves the disadvantages of low reliability of sub objective weight value allocation and ignoring subjective judgment, realizes the lightweight of the box. After the improvement of the box structure, the static and dynamic performances are significantly improved.
STATIC AND DYNAMIC CHARACTERISTIC ANALYSIS AND MULTI-OBJECTIVE TOPOLOGY OPTIMIZATION OF GEARBOX
LIU Wei (author) / ZHU Xiang (author) / GAO Ting (author) / FANG Weidong (author) / LI Hao (author) / CHEN Xuehui (author) / HAO Shuai (author)
2025
Article (Journal)
Electronic Resource
Unknown
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