| 1. | Shape optimization of a rigid inclusin in an elatic plane under concentrated loads
集中载荷作用下弹性平面刚性夹杂的形状优化 |
| 2. | Natural stone test methods . determination of flexural strength under concentrated load
天然石材的试验方法.集中载荷下弯曲强度的测定 |
| 3. | Thermal insulating products for building applications . determination of behaviour under point load
建筑业隔热材料.集中载荷作用的测定 |
| 4. | Bending of rectangular plates point - supported on four straight edges under a concentrated load
集中载荷作用下四直边上任意点支承矩形板的弯曲 |
| 5. | Bending of rectangular plate with each edges arbitrary a point supported under a concentrated load
集中载荷作用各边上任一点被支承的矩形板弯曲 |
| 6. | Bending of rectangular plates supported at any point on the straight edges under a concentrated load
集中载荷作用下四直边上任意点支承矩形板的弯曲 |
| 7. | Standard test method for conducting traverse and concentrated load tests on panels used in floor and roof construction
进行地板和屋面建筑用配电板的横向和集中载荷试验的标准试验方法 |
| 8. | This is of disadvantage in efgm for it complicates the imposition of essential boundary conditions and the application of point loads
因此,本质边界条件的施加和集中载荷的处理变的复杂。 |
| 9. | Second , the computational amount is huge and unnecessary when it is used to solve the problem of concentrative loading in mechanics and physics
其次,用有限元法求解工程和物理中集中载荷等问题时,显得工作量过大而且浪费。 |
| 10. | Because the numerical solution is obtained point to point by it , the probabilistic numerial method is not expensive for the problem of concentrative loading
又因为此种方法,是逐点获得数值解的,因此,用于集中载荷等问题时不显工作量大和浪费。 |
