The aim of this project was to develop non-contact fiber optic based displacement sensors to operate in the harsh environment of a “light gas gun” (LGG), which can “fire” small particles at velocities ranging from 1 km/s-8.4 km/s. The LGG is used extensively for research in aerospace to analyze the effects of high speed impacts on materials. Ideally the measurement should be made close to the center of the impact to minimize corruption of the data from edge effects and survive the impact. We chose to develop a non-contact “pseudo” confocal intensity sensor, which demonstrated resolution comparable with conventional polyvinylidene fluoride (PVDF) sensors combined with high survivability and low cost. A second sensor was developed based on “fiber Bragg gratings” (FBG) to enable a more detailed analysis of the effects of the impact, although requiring contact with the target the low weight and very small contact area of the FBG had minimal effect on the dynamics of the target. The FBG was mounted either on the surface of the target or tangentially between a fixed location. The output signals from the FBG were interrogated in time by a new method. Measurements were made on carbon fiber composite plates in the LGG and on low velocity impact tests. The particle momentum for the low velocity impact tests was chosen to be similar to that of the particles used in the LGG.
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机译:该项目的目的是开发基于非接触式光纤的位移传感器,以在“轻气枪”(LGG)的恶劣环境下运行,该枪可以以1 km / s-8.4的速度“发射”小颗粒公里/秒LGG被广泛用于航空航天研究,以分析高速撞击对材料的影响。理想情况下,应在冲击中心附近进行测量,以最大程度地减少边缘效应造成的数据损坏并在冲击中幸存下来。我们选择开发一种非接触式“伪”共焦强度传感器,该传感器具有可与常规聚偏二氟乙烯(PVDF)传感器媲美的分辨率,并且具有高生存能力和低成本。基于“光纤布拉格光栅”(FBG)开发了第二个传感器,以便能够更详细地分析撞击的影响,尽管需要与目标接触,但FBG的重量轻且接触面积很小,因此对传感器的影响最小。目标的动态。 FBG既可以安装在目标表面上,也可以切向安装在固定位置之间。 FBG的输出信号通过一种新方法被及时查询。在LGG中对碳纤维复合材料板以及低速冲击试验进行了测量。选择低速冲击试验的粒子动量类似于LGG中使用的粒子动量。
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