| 1. | New solution system for plate bending and its application 板弯曲求解新体系及其应用 |
| 2. | Technical conditions of 4 - roll plate bending machine 四辊卷板机.技术条件 |
| 3. | Difference between reissner and mindlin plate bending 板弯曲理论解的差异 |
| 4. | The elastic - thin - plate bending method for predicting ground subsidence due to underground mining 地下开采引起地表沉陷预测的弹性薄板法 |
| 5. | United solution method on four edges supported plate bending with boundary displacements 支座位移作用下四边支承矩形弹性薄板弯曲统一求解方法 |
| 6. | In this paper , the application of hamiltonian systematic theory in plate bending problem is studied 本文主要讨论哈密顿体系理论在弹性力学中的具体应用。 |
| 7. | It is well known that the construction of plate bending element is essentially more difficult than that of plane elasticity for the reason that the former has to meet the requirement of c1 continuity 由于c ~ 1连续性要求,薄板、薄壳的有限元构造比之平面弹性存在本质上的困难。 |
| 8. | According to the structure of plate bending rolls , electing the correlated control module , and through rs - 485 industrial control bus linking to a organic unity , we can combine the suitable numerical control system 根据卷板机的结构选用相应控制模块,并通过rs ? 485工业控制总线连接成一有机整体,就可组合成相应数控系统。 |
| 9. | A thorough study is exerted in this paper on the general method of transformation from plane elasticity displacement element , which is characterized by its simple formulation and sound reliability , to plate bending element 本文充分研究了将平面弹性位移法单元转化为板弯曲单元的一般方法。平面弹性单变量位移元具有列式简单、可靠性好的优点。 |
| 10. | Since the similarity between plane elasticity and plate bending is a special case of the static - geometric analogy , this paper , therefore , studies the new formulation based on the static - geometric analogy in a broad sense 平面弹性和板弯曲的相似性是壳体静力?几何比拟的特例,所以在总的意义下本文就是研究基于板壳静力?几何比拟理论的新型板壳单元列式。 |