| 1. | The purpose of this research is to develop computational procedures for nonlinear soil - structure interaction problems
摘要研究了土体构造物共同作用的非线性问题。 |
| 2. | As with any complicated computational procedure , it is essential to have some means to test the accuracy of the results
如同任何复杂的计算方法一样,重要的是采用一些平均值去检验结果的精度。 |
| 3. | In chapter six we consider the dual problem , develop several computational procedures based on duality , and discuss sensitivity and parametric analysis
在第六章中,我们考虑对偶问题,基于对偶建立几个计算程序,并讨论了参数和灵敏度分析。 |
| 4. | Meanwhile , a modified newmark difference scheme and computational procedures has been proposed for fem dynamic incremental load method to the non - linearity of geometry and material
其后,对撞击接触的动力学数值计算原理及关键理论方法在连续介质力学框架下进行了初步研究与归纳。 |
| 5. | The automatic product n of the double circular arc gear contact computation finite element model was realized used the corresponding computational procedure established by finite element software ansys in to inlay the language
采用有限元软件ansys的内嵌语言编制相应的计算程序,实现双圆弧齿轮接触计算有限元模型的自动生成。 |
| 6. | The simultaneous outflow from dam of trunk and branch streams is studied also for wide rang floods . by the new computational procedure , the optimum scheme of outflow from dam will be determined to decrease the influence of flood
通过干支流大坝泄洪的演算,可确定大坝泄洪的优化方案,并减小对下游的影响,起到水库最优调蓄洪水的作用。 |
| 7. | The numerical experiments proved that the improved algorithm has the characteristics of easily to program and precision higher . based on it , detailed computational procedure package and curve storehouse of arbitrary kinds of mathieu function has also been obtained
数值实验证明,这种改进后的算法具有易编程,精确度更高的特点。并在此基础上给出了完整的计算程序包,建立了目前最为完整的mathieu函数曲线库。 |
| 8. | 2 ) a computational procedure is proposed to solve the interaction problem of elastic structure and fluid . little simplification of fluid is carried out . the coupling algorithm solves the equations for the fluid and solid domains independently of each other
2 )在计算流体动力学( cfd )的基础上,发展了一种流固耦合计算模式( fsi ) ,流体为粘性介质,采用ale格式处理流体和结构之间的移动界面,流体域和固体域分别独立计算,程序控制传递流体压力及固体位移和速度作为对方的边界条件,实现耦合计算。 |
| 9. | On the basis of a case study regarding freezing engineering project from a coal mine , huainan , the frozen wall thickness , average temperature , freezing time of an oblique frozen tube axe simulated using large - scale non - linear finite element computational procedure adina numerical simulator , resulting in the data coincided with site measured
以淮南某煤矿冻结工程为研究背景,应用大型非线性有限元计算程序adina模拟冻结管偏斜条件下的冻结壁厚度、平均温度与冻结时间等,结果和现场实测十分接近。 |
| 10. | For better veracity of simulating model , model is used lookup - table module to calculate the thermodynamic character of refrigerant , and datas of experience and test is combined in the compressor module , also the coefficient of heat transfer changing by running parameter is decided by computational procedure . in addition , choosing congruence step size solves the divergence of simulation procedure
为了使仿真模型具有相当的准确性,模型中采用查表模块进行制冷剂热力性质计算,压缩机模块中将实验数据与经验计算数据相结合,通过程序运算确定冷凝器和蒸发器传热系数与运行参数之间的关系,并成功解决了仿真程序运行发散的问题。 |
