兵工自动化
兵工自動化
병공자동화
ORDNANCE INDUSTRY AUTOMATION
2014年
10期
80-82
,共3页
有限元分析%谱响应%减震
有限元分析%譜響應%減震
유한원분석%보향응%감진
FEM%spectrum response%vibration-absorptive
为了提高乏池检测装置在地震时的减震性和抗震性,提出一种乏池检测装置的地震响应优化方法。通过Pro Engineer软件对检测装置进行建模,使用SeismoSignal软件将采样得到的地震数据通过傅里叶变换为地震波谱,并以此为输入信息通过Ansys workbench的Response Spectrum Analysis软件模块进行谱响应分析,优化其减震模块。分析结果表明:该方法有效提高了乏池检测装置在地震时的抗震性,误差不超过5%。
為瞭提高乏池檢測裝置在地震時的減震性和抗震性,提齣一種乏池檢測裝置的地震響應優化方法。通過Pro Engineer軟件對檢測裝置進行建模,使用SeismoSignal軟件將採樣得到的地震數據通過傅裏葉變換為地震波譜,併以此為輸入信息通過Ansys workbench的Response Spectrum Analysis軟件模塊進行譜響應分析,優化其減震模塊。分析結果錶明:該方法有效提高瞭乏池檢測裝置在地震時的抗震性,誤差不超過5%。
위료제고핍지검측장치재지진시적감진성화항진성,제출일충핍지검측장치적지진향응우화방법。통과Pro Engineer연건대검측장치진행건모,사용SeismoSignal연건장채양득도적지진수거통과부리협변환위지진파보,병이차위수입신식통과Ansys workbench적Response Spectrum Analysis연건모괴진행보향응분석,우화기감진모괴。분석결과표명:해방법유효제고료핍지검측장치재지진시적항진성,오차불초과5%。
For improving shock absorption and anti-seismic in earthquake, the optimization method of spent fuel detection equipment is presented. Used Pro Engineer software to established model, used SeismoSignal software to changed earthquake data sample in to earthquake spectrum by Fourier transform, then used earthquake spectrum to carry out spectrum response by Response Spectrum Analysis software module of Ansys workbench, optimize shock absorption module. The analysis results show that the method effectively improve shock absorption of spent fuel detection equipment in earthquake with error less than 5%.
