上海理工大学学报
上海理工大學學報
상해리공대학학보
Journal of University of Shanghai for Science and Technology
2015年
5期
462-466
,共5页
杜妍辰%高雷%周燕瑜%秦婧
杜妍辰%高雷%週燕瑜%秦婧
두연신%고뢰%주연유%진청
振动%变质量%渐近法%响应突变
振動%變質量%漸近法%響應突變
진동%변질량%점근법%향응돌변
vibration%variable mass%asymptotic method%response mutation
对变质量碰撞振动系统进行求解分析,研究系统参振质量变化时对系统动力学的影响。采用渐近法对变质量振动方程进行近似解析求解,并运用龙哥库塔法进行数值计算。结果表明,渐近解析法与数值法响应一致,渐近法对于解非线性系统动力行为是有效的;且由计算结果可知,变质量会使系统响应产生一定的突变。振动方程中的参振质量变化系数和质量变化频率分别影响系统突变的振幅和周期。当参振质量变化系数为零时,系统响应平稳;该系数越大,系统响应的突变振幅也越大。激振频率与质量变化频率比值越大,响应突变的周期越大。
對變質量踫撞振動繫統進行求解分析,研究繫統參振質量變化時對繫統動力學的影響。採用漸近法對變質量振動方程進行近似解析求解,併運用龍哥庫塔法進行數值計算。結果錶明,漸近解析法與數值法響應一緻,漸近法對于解非線性繫統動力行為是有效的;且由計算結果可知,變質量會使繫統響應產生一定的突變。振動方程中的參振質量變化繫數和質量變化頻率分彆影響繫統突變的振幅和週期。噹參振質量變化繫數為零時,繫統響應平穩;該繫數越大,繫統響應的突變振幅也越大。激振頻率與質量變化頻率比值越大,響應突變的週期越大。
대변질량팽당진동계통진행구해분석,연구계통삼진질량변화시대계통동역학적영향。채용점근법대변질량진동방정진행근사해석구해,병운용룡가고탑법진행수치계산。결과표명,점근해석법여수치법향응일치,점근법대우해비선성계통동역행위시유효적;차유계산결과가지,변질량회사계통향응산생일정적돌변。진동방정중적삼진질량변화계수화질량변화빈솔분별영향계통돌변적진폭화주기。당삼진질량변화계수위령시,계통향응평은;해계수월대,계통향응적돌변진폭야월대。격진빈솔여질량변화빈솔비치월대,향응돌변적주기월대。
The solution and analysis of a collision vibration system with variable mass were focused and the influence of vibration mass varying with time on the dynamic behaviors of the collision vibration system was discussed.The asymptotic method was used to solve the vibration equations with variable mass,and the method of Runge Kutta was used for numerical calculation.The results show that the responses calculated by the analytical method and the numerical method are in consistency and the asymptotic method is effective for the solution of the dynamic behaviors of nonlinear systems.The calculation also shows that variable mass will make the system response produce a certain mutation.The variation coefficient and the changing frequency of vibration mass will affect the mutation’s period and the amplitude of system respectively.When the variation coefficient is zero,the system response is stationary.The greater the variation coefficient is,the greater the mutation is.The greater the ratio of vibration frequency to mass varying frequency is, the longer the cycle of response mutation is.