摘要
密度可以解释熔融金属的性质和行为,密度的变化特征反映了熔融金属内部原子距离和配位数等的基本变化。研制了一种测量熔融金属密度的浮子式光纤Bragg光栅传感器,浸没在熔融金属中的浮子受浮力作用,通过传递杆、等臂杠杆及连杆,拉动等强度悬臂梁产生扰度变化,根据检测粘贴在等强度悬臂梁表面的光纤Bragg光栅中心波长移位值,测出浮力值,进而检测熔融金属密度。该传感器的理论灵敏度为0.115pm/(kg/m3),4次实验得到熔融金属的平均密度为7.574×103 kg/m3,略小于理论密度7.621×103kg/m3,相对误差为0.62,均方根误差为117.371kg/m3。
The quality and behavior of the molten metal can be defined by density, which is reflected the basic changes of the inter-atomic distance and coordination number of molten metal. A float-type fiber Bragg grating sensor is manufac- tured to measure the density of molten metal. The floater submerged in molten metal is c7ontrolled by buoyancy force. Through the driving rod, equal armed lever and connecting rod, pulling the equal strength cantilever beam, the deflection is changed. On the basis of detecting the wavelength shift of fiber Bragg grating which is pasted on the surface of cantile- ver beam the buoyancy values be obtained. The density of molten metal is detected. The theoretical sensitivity of the sen- sor is 0. 115pm/(kg/m3). According to the four times experiment, the average density value of the molten metal is 7. 574 ×10^3kg/m3, which is less than the theoretical data for 7. 621×10^3kg/m3. The relative error is 0. 62, the root mean square error is 117. 371 kg/m3.
出处
《光学技术》
CAS
CSCD
北大核心
2014年第3期214-218,共5页
Optical Technique
基金
云南省自然科学基金(2007F181M)
云南省应用基础研究计划项目(2013FZ021)