The formulas to evaluate the coefficients of the simplified FPK equation for several types of wide-band excitations are deduced.
本文第二部份导出了受到各种类型宽带激励的单自由度拟线性二阶系统的简化fpk方程系数的计算公式。
For design calculations, the characteristic tensile strength (FPK) is used and this has been taken into account in the following expressions.
设计计算时用到标准抗张强度(fpk),在下列表达式中已将其考虑进去。
Emphasis is laid on the analysis, of large nonlinearities in system, for example, the FPK method, the closure method and the functional series expansion method.
重点是具有较大非线性的系统的方法,如FPK法,矩闭合法和函数级数法。
A 4d dynamic model has been established for the vehicle suspension system. No-linear random vibration theory is used to discuss how to solve this equation by FPK based on filtered white noise input.
建立了四自由度车辆悬挂系统的动力学模型,并应用非线性随机振动理论,在对模型输入进行过滤白噪声简化的基础上,探讨了用FPK法解方程的可能途径。
A 4d dynamic model has been established for the vehicle suspension system. No-linear random vibration theory is used to discuss how to solve this equation by FPK based on filtered white noise input.
建立了四自由度车辆悬挂系统的动力学模型,并应用非线性随机振动理论,在对模型输入进行过滤白噪声简化的基础上,探讨了用FPK法解方程的可能途径。
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