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设计了一种45°直头外圆车刀薄膜测力传感器,该传感器是由45钢基片、Al2O3薄膜及镍铬薄膜(Ni80%Cr20)电阻栅溅射沉积形成,然后通过低温低压扩散焊接技术焊接在车刀刀杆的设定位置,镍铬薄膜电阻栅与导线连接组成惠斯通电桥可获得较好的输出电压。对电桥输出电压与梁的受力变形关系及传感器受到各向分力关系进行了分析。分析结果表明:只需在45°直头外圆车刀刀杆的4个侧面安装传感器即可实现三向力的测量,该方法大大减小了传感器的尺寸,简单可行,并且精确度高,减少研究成本、缩短开发周期。 相似文献
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设计了一种嵌入薄膜传感器的可换刀头测力仪,用于测量车刀切削过程中的主切削力与进给力。将车刀的刀头与刀柄设计为分离式两段结构,通过法兰套筒将刀柄与不同形状的车刀刀头对接,实现刀头的可换性。利用直流磁控溅射、光刻技术等方法制备Ni80Cr20合金薄膜应变传感器,该传感器通过真空扩散焊接方式安装在靠近法兰一端的刀柄表面,靠近法兰一端的刀柄中间部分设计为多层台阶凹槽,从而提高传感器灵敏度。利用ABAQUS软件对模型进行静力学仿真,分别在刀尖处施加单向力和三向组合力,得到测力仪输出电压和施加的三向力系数为0.0113-0.0114mV/N,误差为5.4%-6.5%。对比并分析了输出电压与外力之间的关系,通过传感器的单轴拉伸试验得到传感器的电阻应变系数为1.68;在单向力拉伸作用下传感器的测量灵敏度为0.0037mV/N。 相似文献
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Diamond cup wheel is used widely as an important tool for machining ceramic tile. In this paper, nano rare - earth oxide and nano carbide were added in the segments of seven kinds of diamond cup wheels. The performance of diamond cup wheels were tested on a special designed test machine by grinding two kinds of ceramic tiles. The surface morphology of the segments was examined by Scanning Election Microscopy (SEM) and the micro-hardness of segments was measured. The results showed that nano rare-earth oxide and nano carbide can fine segment micro structure, make grain boundary clear and increase grasping of diamond grits. They can increase also the wear resistance of diamond cup wheels as well as the grinding ratio. 相似文献
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