Governance variables such as incentive, loan structure, types of household loans and the frequency of replacement of RCC directors have impact on RCC non-performing loans.
激励的强度、贷款的结构、农户贷款方式的选择和主任的更换频率这些治理变量对信用社的不良贷款都会产生影响。
Then the gradients of flutter speed and frequency of wing with respect to the design variables were deduced with analytical method.
使用解析方式推导得到机翼的临界颤振速度、颤振频率对于设计变量的灵敏度表达式。
Material characteristics, geometrical property of a structural components and the load acted on it are random variables. As a result, its natural frequency and fatigue strength are random ones.
由于构件的材料参数、几何参数及所受的载荷均为随机变量,所以构件振动时其固有频率及疲劳极限亦为随机变量。
Because of the limit in modern industry sites, the frequency of the process variables detect is different. We can resolve the problem by multi frequency and multi variable control.
在工业现场由于条件的限制,很多过程变量需要的检测频率并不一样,从而带来了多频多变量的控制问题。
Three variables as temperature, load frequency and stress ratio are the critical parameters affecting fatigue crack growth behaviour in metallic material.
温度、载荷频率和应力比是影响材料疲劳裂纹扩展行为的主要因素。
Finally, it gets frequency band which should be avoided and provides target variables or state variables for the optimum design of gantry crane by the harmonic response analysis for gantry crane.
通过对龙门起重机进行谐态分析,得出应该避免的固有频率段,并且为龙门起重机的优化设计提供了目标变量或状态变量。
The finite element method is employed to analyze the structure and work out the status variables required by (optimization) including deflection, stress and frequency.
利用有限元法进行结构分析,求出优化所需的状态变量,挠度、应力和频率。
But for high frequency problem and complex structure, too dense grid of object will lead to dense impedance matrix and many unknown variables, so the computational efficiency will be very low.
但是在处理高频问题和具有精密结构的缝隙时,对目标剖分过密会导致稠密的阻抗矩阵,未知量增加,影响计算的效率。
The design variables include the excitation frequency and the stiffness of vibration isolation system.
系统研究了不同激振频率对焊接残余应力降低程度的影响。
The effects of moisture content, soil type, density of soil and microwave frequency on microwave re-flection loss were examined. These variables were found to influence the microwave reflection loss.
采用一套简单的试验装置以测定土壤的微波反射损失并用之研究土壤的含水量、容重、土壤类型和贯入阻力对微波反射损失的影响。
The effects of moisture content, soil type, density of soil and microwave frequency on microwave re-flection loss were examined. These variables were found to influence the microwave reflection loss.
采用一套简单的试验装置以测定土壤的微波反射损失并用之研究土壤的含水量、容重、土壤类型和贯入阻力对微波反射损失的影响。
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