| 1. | Deduction of the theoretical formula of the bending center and its application
弯曲中心理论公式的推导和应用 |
| 2. | In addition , a theoretical formula of the system performance was derived
另外还导出了单稳态系统性能的理论公式。 |
| 3. | Making use of the amendatory " truss + arch " theory , the theoretical formula of the shear resistanc
目明,理论抗剪公式是偏于安全的。 |
| 4. | We deduced the basic theoretical formula for analyse piezoelectrics and acoustic fluid using fem
推导了使用有限元分析压电体和声学流体的基本理论公式。 |
| 5. | Making use of the theoretical formula of shear resistance , the shear mechanism of general beams is analyzed
利用理论抗剪公式,分析了一般梁构件的抗剪机理。 |
| 6. | The theory of the block element method is systematically presented here and its relative theoretical formulas are deduced . 2
系统地介绍了块体单元法的理论,进行了相关的理论公式的推导。 |
| 7. | Based on the heat conduction theory , the fea theoretical formulas of temperature field and thermal stress are deduced in this paper
本论文从热传导理论出发,推导出温度场和温度应力的有限单元法理论公式。 |
| 8. | Theoretical formulas described the relations between properties and composition distribution of the flier - plates was also derived
通过理论推导,分别建立起了相关性能参数与复合体系组成分布之间的数学表达式。 |
| 9. | Moreover , the theoretical formula were applied in combination of practical example , with the temperature distribution along the radial direction in a transient state proposed
并结合算例给出了在短时超高温条件下烟囱筒身沿径向的瞬态温度分布。 |
| 10. | The results of finite element model and theoretical formula are proved to be in good agreement with the experimental results
在基于现行规范的基础上提出了组合梁跨中挠度的建议计算公式把有限元模型和建议公式的计算结果与试验结果进行比较,三者吻合良好。 |
