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。
The sensitivities of temperature and strain are calibrated by calorstat and cantilever beam separately.
在他的设计中,悬臂梁伸出太多,不能平衡。
悬臂梁安装时的偏差方程序是什么?
What is the deflection equation of a cantilever beam fixed at one edge?
测力元件采用悬臂梁或柱的形式。
Force - measuring elements employ either a cantilever beam or a column arrangement.
这种结构基本上由两根悬臂梁组成。
研究了一种弯曲悬臂梁静电执行器。
讨论变截面悬臂梁的形状优化。
Shape optimization of a taper cantilever beam is presenting.
角落处的悬臂梁不超过4米。
热执行器用来作为悬臂梁断裂的驱动源。
Cantilever fracture force is provided by the thermal actuator.
理论上研究了单位力扰动下的悬臂梁的振动。
Vibrations of Timoshenko beam per unit disturbance are investigated in theory.
研究了一种新型结构的光纤悬臂梁式振动传感器。
This paper deals with a novel type of optic fibre cantilever vibration sensor.
沉重的EXE文件建立悬臂梁床车床于此可见图片。
The heavy build of the EXE cantilever-bed lathe is evident from this picture.
讨论了悬臂梁在联合载荷作用下满应力截面设计问题。
The full stress design of a cantilever beam under a combined load is discussed.
研究了悬臂梁式分割电极片状压电致动器的位移特性。
Displacement characteristics of a cantilever split morph piezoelectric actuator have been investigated.
并用此方法讨论了简支梁和悬臂梁的塑性动力响应问题。
In this way, the response of simply supported beams and cantilever beams is discussed.
此分析方法和结论可用于锆钛酸铅悬臂梁结构的优化设计。
Above-mentioned methods and conclusion can be used for optimized design of PZT cantilever structure.
研究了应力约束下最小重量悬臂梁桁架结构的拓扑优化设计。
Topology optimization design of minimum weight cantilever trusses subjected to stress constraints is studied.
改变加电压方向控制悬臂梁夹持物体,电压为零时释放物体。
Cantilever beam holding object is controlled through changing direction of voltage applied. When the voltage is zero, release the object.
压电悬臂梁的实验表明,它们能使结构模态阻尼比大幅提高。
The subsequent experiments on a piezoelectric beam show that the structural modal damping ratio can be promoted significantly.
中心道路由悬臂梁支撑出人行道,宽阔的露台提供了绝佳的景观。
The central road carries the walkways on cantilevers, large balconies offering fantastic perspectives.
让我们从一个简单的悬臂梁开始,并解释系统一些内在的基本特性。
Let's start with a simple cantilever beam and explain some basic properties that are inherent in the system.
分析了残余应力对上级板的影响和对悬臂梁的等效弹性系数的影响。
Also its influence to warp of the top plate and equivalent elasticity coefficient of cantilever beam is discussed.
用加速度传感器和DSPS系统,实现了对悬臂梁结构的在线监测。
Monitoring online of the cantilevering beam can be realized through accelerating transducer and DSPS system.
采用有限元方法进行计算,获得了悬臂梁弯曲变形的温度响应曲线。
By applying the finite element method in the calculation, the temperature response curve of the cantilever has been obtained.
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。
A cantilever beam is calculated as an example. The correctness of the method is verified by an experiment.
与传统的静电驱动悬臂梁执行器相比,新的结构能更精确地控制梁的挠度。
Compared with traditional electrostatic cantilever actuators, this device can control the deflection of the beam more accurately.
在钢筋混凝土双悬臂梁试验系统中,应变、挠度以及荷载是其主要的测试内容。
In test system of reinforced concrete double cantilever beams, strain, deflection and load were principal experimental contents.
考虑了悬臂梁由应力梯度引起的沿宽度方向的弯曲,提高了吸合电压的计算精度。
To increase the accuracy of the measurement, bending of the cantilevers along the width direction due to the stress gradient was considered.
“悬臂梁”的二层和屋顶甲板不仅提供了壮观的景观视角,同时也不包含任何方形结构。
The 'cantilevered' second level and roof deck not only offer magnificent views of the landscape, but also do not comprise any of the square footage.
对一种先进的双悬臂梁高量程MEMS加速度计的单芯片封装工艺进行了失效机理分析。
Failure analysis is conducted for the single chip packaging process of an advanced high-range MEMS accelerometer with double cantilever beams.
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