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- The Study of Pulsed Eddy Current Imaging Array Probe Used to Detect Corrosion 脉冲涡流腐蚀成像阵列传感器应用研究
- Application of VFW techniques for image capture in magneto-optical / eddy current imaging system VFW图像获取技术在磁光/涡流成像系统中的应用
- eddy current imaging 涡流成象
- Please engage the eddy current brake. 请挂上涡磁刹车。
- And the auxiliary brake uses an Eddy current brake or EATON brake. 辅助刹车既可用涡流刹车,亦可用伊顿刹车。
- Also conventional UT for corrosion mapping, and eddy current array. 它还可用于常规超声腐蚀测图以及电涡流相控阵。
- In addition to normal NDT methods, some advanced techniques such as X-ray real-time imaging and eddy current inspection are also introduced. 采用的方法除常规的无损检测方法外,还包括X射线实时成像检测和电磁涡流表面裂纹检测等方法。
- The far field eddy current testing system for trial was developed. 建立了试验远场涡流检测系统。
- Eddy currents can produce electromagnetic damping. 涡流可以产生电磁阻尼。
- Cannot zoom current image to this scale. 无法将当前图像缩放到该比例。
- Eddy current testing system of carburized materials was developed by using ANSYS software as second development platform. 以通用有限元分析软件ANSYS作为二次开发平台,开发了面向渗碳材料的涡流测试系统。
- Current imaging techniques provide anatomic data but no indication of plaque inflammation. 当前的影像方法提供了解剖学上的数据,但是不能指示动脉粥样斑炎症病灶。
- The apparatus finds some technical applications and is known as an "eddy current brake". 这种装置有某些技术上的应用,即众所周知的“涡流制动器。”
- Specified scale value is invalid for the current image. 指定的缩放值对当前图像无效。
- Our leading edge technologies include ultrasound, ultrasound phased array, eddy current, and eddy current array. 我们的前沿技术包括常规超声、超声相控阵、涡流以及涡流阵列。
- Retrieves the height of the current image in pixels. 得到当前图像高度的像素值。
- This paper discusses the mechanical damping effect of eddy current, and designs a good experimental demonstration of it. 摘要本文对涡电流的机械阻尼效应作一受力分析,并设计一个好的演示实验。
- GetWidth Retrieves the width of the current image in pixels. 得到当前图像宽度的像素值。
- The result showed that layered multi-subnet neural network was suitable to online eddy current testing. 结果表明,层次式多子网神经网络适用于实时在线检测。
- It is proved that the method of magneto-optic/eddy current imaging is reasonable and practicable for nondestructive testing. 试验结果表明,磁光涡流显微成像方法是一种现实、可行的无损检测方法。
