机电工程技术
機電工程技術
궤전공정기술
MACHANICAL & ELECTRICAL ENGINEERING TECHNOLOGY
2014年
11期
33-36
,共4页
沈佳辉%林锋%何琰%刘龙
瀋佳輝%林鋒%何琰%劉龍
침가휘%림봉%하염%류룡
球阀%抗震%有限元
毬閥%抗震%有限元
구벌%항진%유한원
ball valve%anti-seismic%FEM
利用ANSYS软件建立了手动偏心球阀的三维有限元模型,进行抗震分析,不仅进行了静力分析,还选取常见的典型地震波进行谱分析和时程分析。通过计算比较,发现三种方法应力计算结果接近;在计算效率上,静力分析优于谱分析和时程分析。
利用ANSYS軟件建立瞭手動偏心毬閥的三維有限元模型,進行抗震分析,不僅進行瞭靜力分析,還選取常見的典型地震波進行譜分析和時程分析。通過計算比較,髮現三種方法應力計算結果接近;在計算效率上,靜力分析優于譜分析和時程分析。
이용ANSYS연건건립료수동편심구벌적삼유유한원모형,진행항진분석,불부진행료정력분석,환선취상견적전형지진파진행보분석화시정분석。통과계산비교,발현삼충방법응력계산결과접근;재계산효솔상,정력분석우우보분석화시정분석。
In this study,the three-dimensional finite element model of manual eccentric ball valve is built using ANSYS software. Then the seismic analysis is carried out. Not only the static analysis is carried out,but also the spectrum analysis and time-history analysis are carried out through selecting common typical earthquake wave. Through comparison, we find the three results are close, but the static method is conservative. According to the actual requirements, the calculation results are close among three methods. In the computation efficiency,the static analysis is better than the spectrum analysis and time-history analysis.