振动与冲击
振動與遲擊
진동여충격
JOURNAL OF VIBRATION AND SHOCK
2015年
2期
91-95
,共5页
联合振动%振动试验%正弦加随机%有限元分析%振动控制
聯閤振動%振動試驗%正絃加隨機%有限元分析%振動控製
연합진동%진동시험%정현가수궤%유한원분석%진동공제
combined vibration%vibration test%sine on random signal%finite element analysis%vibration control
提出联合振动试验系统,将液压振动台与电动台有效结合,并实现较大量级的正弦加随机振动。用液压台施加低频正弦激励,用电动台施加宽频随机激励,将正弦信号与随机信号有效分离,并分别用功率谱及频谱控制。设置弹性、阻尼单元,用以模拟台面至工件的传递特性,通过调整弹簧刚度及阻尼大小,使台面至工件及电动台的传递特性一致,以保护电动台。利用有限元软件 Nastran 仿真控制效果,将刚度、阻尼合理匹配后,电动台能较好跟踪工件运动。通过功率谱均衡方法有效控制随机振动试验,并在电动台输出端获得与目标谱较一致的功率谱。工件呈现出要求的正弦加随机振动,从而证明该系统的有效性。
提齣聯閤振動試驗繫統,將液壓振動檯與電動檯有效結閤,併實現較大量級的正絃加隨機振動。用液壓檯施加低頻正絃激勵,用電動檯施加寬頻隨機激勵,將正絃信號與隨機信號有效分離,併分彆用功率譜及頻譜控製。設置彈性、阻尼單元,用以模擬檯麵至工件的傳遞特性,通過調整彈簧剛度及阻尼大小,使檯麵至工件及電動檯的傳遞特性一緻,以保護電動檯。利用有限元軟件 Nastran 倣真控製效果,將剛度、阻尼閤理匹配後,電動檯能較好跟蹤工件運動。通過功率譜均衡方法有效控製隨機振動試驗,併在電動檯輸齣耑穫得與目標譜較一緻的功率譜。工件呈現齣要求的正絃加隨機振動,從而證明該繫統的有效性。
제출연합진동시험계통,장액압진동태여전동태유효결합,병실현교대량급적정현가수궤진동。용액압태시가저빈정현격려,용전동태시가관빈수궤격려,장정현신호여수궤신호유효분리,병분별용공솔보급빈보공제。설치탄성、조니단원,용이모의태면지공건적전체특성,통과조정탄황강도급조니대소,사태면지공건급전동태적전체특성일치,이보호전동태。이용유한원연건 Nastran 방진공제효과,장강도、조니합리필배후,전동태능교호근종공건운동。통과공솔보균형방법유효공제수궤진동시험,병재전동태수출단획득여목표보교일치적공솔보。공건정현출요구적정현가수궤진동,종이증명해계통적유효성。
In order to increase the range of vibration frequencies,a novel combination of the hydraulic vibration table and the electrodynamic shaker was proposed.The joint test system has been used in sine on random vibration test. The sine signals and random signals were provided by the hydraulic and electrodynamic shaker respectively,and the control algorithms based on spectrum equalization and power spectral density (PSD)equalization were utilized.The variable spring-damping elements were set to simulate the transfer properties from the table to the electrodynamic shaker. Based on the simulation results by the MSC (Nastran)software,it is indicated that the dynamic characteristics of electrodynamic vibration shaker is closely related to the low frequency part of test article.In accordance with the random and sine signals,the control algorithms can continuously update the drive signals,and the control accuracy of the reproduced PSD at the control point is quite satisfactory.