已建结构的动力测试是了解其实际动力性能、提升建模和计算分析精度、检测结构损伤情况的重要手段.提出了 Human Shaker(HS)的方法,利用人的行走、跳跃和摆动等运动实现对结构的激振,由智能可穿戴设备得到激振荷载和结构响应,并由此识...已建结构的动力测试是了解其实际动力性能、提升建模和计算分析精度、检测结构损伤情况的重要手段.提出了 Human Shaker(HS)的方法,利用人的行走、跳跃和摆动等运动实现对结构的激振,由智能可穿戴设备得到激振荷载和结构响应,并由此识别结构的模态参数.首先建立了由特征点加速度重构人致激振荷载的方法,以及利用可穿戴设备的HS应用步骤,进而以横向摆动为例通过实验确定了特征点位置及其对应的质量参与修正系数.最后将HS技术应用于某实际结构的动力测试和模态参数识别,结果表明,HS技术可以方便快捷地用于中小型结构的模态测试.展开更多
Adaptive truss structures are a new kind of structures with integrated active members,whose dynamic characteristies can be beneficially modified to meet mission requirements.Active members containing actuating and sen...Adaptive truss structures are a new kind of structures with integrated active members,whose dynamic characteristies can be beneficially modified to meet mission requirements.Active members containing actuating and sensing units are the major components of adaptive truss structures.Modeling of adaptive truss structures is a key step to analyze the structural dynamic characteristics.A new experimental modal analysis approach,in which active members are used as excitatiDn sources for modal test,has been proposed in this paper.The excitation forces generated by the active members, which are different from the excitation forces exerted on structures in the conventional modal test,are internal forces for the truss structures.The relation between internal excitation forces and external forces is revealed such that the traditional identification method can be adopted to obtain modal parameters of adaptive structures.Placement problem of the active member in adaptive truss structures is also discussed in this work. Modal test and analysis are conducted with a planar adaptive truss structure by using piezoelectric active members in order to verify the feasibility and effectiveness of the proposed method.展开更多
文摘已建结构的动力测试是了解其实际动力性能、提升建模和计算分析精度、检测结构损伤情况的重要手段.提出了 Human Shaker(HS)的方法,利用人的行走、跳跃和摆动等运动实现对结构的激振,由智能可穿戴设备得到激振荷载和结构响应,并由此识别结构的模态参数.首先建立了由特征点加速度重构人致激振荷载的方法,以及利用可穿戴设备的HS应用步骤,进而以横向摆动为例通过实验确定了特征点位置及其对应的质量参与修正系数.最后将HS技术应用于某实际结构的动力测试和模态参数识别,结果表明,HS技术可以方便快捷地用于中小型结构的模态测试.
文摘Adaptive truss structures are a new kind of structures with integrated active members,whose dynamic characteristies can be beneficially modified to meet mission requirements.Active members containing actuating and sensing units are the major components of adaptive truss structures.Modeling of adaptive truss structures is a key step to analyze the structural dynamic characteristics.A new experimental modal analysis approach,in which active members are used as excitatiDn sources for modal test,has been proposed in this paper.The excitation forces generated by the active members, which are different from the excitation forces exerted on structures in the conventional modal test,are internal forces for the truss structures.The relation between internal excitation forces and external forces is revealed such that the traditional identification method can be adopted to obtain modal parameters of adaptive structures.Placement problem of the active member in adaptive truss structures is also discussed in this work. Modal test and analysis are conducted with a planar adaptive truss structure by using piezoelectric active members in order to verify the feasibility and effectiveness of the proposed method.
