1·The sensitivities of temperature and strain are calibrated by calorstat and cantilever beam separately.
分别利用恒温箱和悬臂梁完成了系统温度灵敏度和应变灵敏度的实验标定。
2·Shape optimization of a taper cantilever beam is presenting.
讨论变截面悬臂梁的形状优化。
3·Finally a comparative computation of a cantilever beam is also given.
最后,给出了一悬臂梁的比较算例。
4·What is the deflection equation of a cantilever beam fixed at one edge?
悬臂梁安装时的偏差方程序是什么?
5·The full stress design of a cantilever beam under a combined load is discussed.
讨论了悬臂梁在联合载荷作用下满应力截面设计问题。
6·Force - measuring elements employ either a cantilever beam or a column arrangement.
测力元件采用悬臂梁或柱的形式。
7·The structure being analyzed is modeled as a cantilever beam on hysteretic nonlinear supports.
结构被模拟为一个具有滞迟非线性支座的悬臂梁。
8·Then experimental investigation of structural vibration control was made on a cantilever beam in lab.
在此基础上,以悬臂梁为控制对象,对此方法进行结构振动主动控制的试验研究。
9·As an important part of superstructure of cantilever beam system, corbel's stress state is very complex.
牛腿是悬臂体系梁桥上部构造的一个重要组成部分,其应力状态较为复杂。
10·A cantilever beam is calculated as an example. The correctness of the method is verified by an experiment.
最后以悬臂梁为例进行了计算,并通过试验验证了所给出方法的正确性。