共查询到17条相似文献,搜索用时 156 毫秒
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摇头飞椅运行过程中,座椅载荷不断变化,精确的载荷数据对座椅骨架的安全评价至关重要。通过ANSYS Workbench软件,对摇头飞椅进行动力学仿真计算,获取座椅在整个运行周期上的载荷时间历程曲线,提取整个运行周期内座椅载荷的最大值,对座椅骨架进行有限元分析,并依据GB 8408-2018《大型游乐设施安全规范》对分析结果进行安全性评价,保证了座椅的安全性,提高了设计效率和计算精度,并为指导设计生产提供了理论依据。 相似文献
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现代民用飞机座舱内设置有众多的设施包括座椅、内壁、生活设施等都具有明显的蓄放热特征。而在热载荷动态计算过程中,舱内设施蓄、放热性能对空调系统加热、制冷负荷有显著影响。在这些舱内设施中,座椅所具有的热容最大,并且其结构和边界条件及其复杂,座椅蓄放热特性对座舱动态热载荷仿真计算结果的准确性有很大影响。如果采用纯理论的方法,无法判断座椅动态建模中相关边界条件和系数的确定是否准确。因此本文将通过座椅动态热特性实验研究,对座椅的动态蓄放热特征数学模型进行验证。 相似文献
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起重机臂架在起升冲击载荷作用下动态特性研究 总被引:3,自引:1,他引:3
根据电机启动特性,文中运用有限元分析中的子空间迭代法和杜汉梅耳积分对四连杆起重机臂架结构在吊重起升冲击载荷作用下动力学特性进行研究,通过对臂架系统振动模态和吊重突然加速起升引起的冲击动态响应计算,分析臂架系统在各种工况下结构的动力学特性,给出臂架结构设计动载系数ψ2的解析表达式和数值解,为该类起重机结构优化设计和动载系数的选取提供理论依据。 相似文献
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采用有限元分析法对自由落体设备中座椅进行了强度分析,此方法为改进自由落体设备中座椅和其它相关部件的结构设计提供了理论依据,并且仿真结果也为自由落体设备中座椅强度的设计提供了数值依据。结果表明,自由落体设备中座椅的动力学特性良好,冲击小、运行平稳。 相似文献
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Surface based mass spectrometric approaches fill an important niche in the mass analysis portfolio of tools. The particular niche depends on both the underlying physics and chemistry of molecule ejection as well as experimental characteristics. In this article, we use molecular dynamics computer simulations to elucidate the fundamental processes giving rise to ejection of organic molecules in atomic and cluster secondary ion mass spectrometry (SIMS), massive cluster impact (MCI) mass spectrometry, and matrix-assisted laser desorption ionization (MALDI) mass spectrometry. This review is aimed at graduate students and experimental researchers. 相似文献
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Mingming Xing Xiaoguang Li Kaifeng Xue Chengmao Zhang Zongxiang Hou 《Journal of Mechanical Science and Technology》2020,34(4):1485-1493
The stability of a high clearance sprayer (HCS) can be considered in developing modern agriculture. We built a three-dimensional dynamics model of HCS with road excitation considering the influence of complex terrain on the whole vehicle vibration. The numerical simulation method was proposed to solve differential equations based on the Newmark-ß method. The response curves of whole vehicle in the time and frequency domain response were analyzed. The simulation results show that the vibration amplitude difference of left and right wheel is bigger than amplitude difference of right and rear wheel. The average amplitude of roll motion is bigger than pitching motion. The reason is that since the man-machine seat is set on the left of whole vehicle, an additional roll torque is brought. Besides, the displacement amplitude of whole vehicle is bigger than man-machine seat. The reason is that the vibration absorption system of seat can reduce vibration effectively. In amplitude-frequency response curves, the multiple resonance points occur with the road excitation given in this paper. The maximum response amplitude of angle velocity and acceleration of pitching motion is bigger than roll motion. This study has an important theoretical and practical value for structure dynamic optimization of HCS. 相似文献