%0 Journal Article %T 螺栓松动损伤的亚谐波共振识别方法<br>Using Sub-harmonic Resonance to Detect Bolted Joint Looseness %A 屈文忠 %A 张梦阳 %A 周俊宇 %A 肖黎 %J 振动.测试与诊断 %D 2017 %R 10.16450/j.cnki.issn.1004-6801.2017.02.011 %X 螺栓松动将导致结构完整性的破坏,螺栓连接状态的实时有效监测和评估具有重大意义。提出了一种基于亚谐波共振分析的螺栓松动识别方法。针对螺栓连接结构简化的单自由度非线性模型,采用多尺度方法分析了亚谐波共振现象,定性模拟了螺栓松动损伤亚谐波激励条件。以铝梁螺栓搭接结构为实验对象,利用粘贴在铝梁表面的压电作动/传感单元,采用不同频率的激励信号作用在作动片上,传感片接收响应信号,对其进行频谱分析,通过提取响应频谱中的亚谐波成分进行螺栓松动损伤识别。仿真与实验结果表明,亚谐波产生所需激励频率在两倍固有频率附近,使用亚谐波检测方法能有效识别螺栓松动。<br>Bolted-joint structures are prone to loosening under vibration, which affects the structural integrity. This paper presents a bolt looseness recognition method based on the sub-harmonic resonance analysis.The bolted-joint structure was simplified to a nonlinear single-degree-of-freedom (SDOF) model, and the multi-scale method was used to explain the sub-harmonic resonance. Experiments were performed on an aluminum beam with a loosened-bolted simulating the damage. Two surface-bonded piezoelectric transducers were used to generate continuous sinusoidal excitation and receive corresponding wave signals. The experimental results demonstrated that the sub-harmonic components appeared when subject to the excitation frequency twice of the natural value, which can be effective on bolt looseness damage detection. %K 螺栓松动 %K 损伤识别 %K 多尺度方法 %K 亚谐波< %K br> %K bolt looseness %K damage detection %K method of multiple scales %K subharmonic %U http://zdcs.nuaa.edu.cn/ch/reader/view_abstract.aspx?file_no=201702011&flag=1