An experimental method to measure the layer thickness and wave velocity of copper-steel composite board without interface echo

Zheng Gangfeng; Xia Wandong; Ma Liangbo; Sun Wei; Sun Chao; Xu Yiao; Zhao Xiaodong; Wang Kaifeng

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An experimental method to measure the layer thickness and wave velocity of copper-steel composite board without interface echo

机译：一种无界面回波的铜钢复合板层厚和波速测量的实验方法

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Thickness of each medium layer and velocity of ultrasonic wave propagation in each medium layer of the two-layer composite medium were measured simultaneously based on the method to collect phase information from continuous echo signals on front surface and undersurface. Such measurement was implemented under no interface echo and fixed total thickness of the testpiece. The method can be applied to any two kinds of two-layer composite medium. The paper only used a 35 mm thick copper-steel composite board as an experimental example. Calculated results demonstrated that measuring errors of both thickness and velocity of ultrasonic wave propagation are smaller than 0.2%, indicating the effectiveness of the proposed measurement method. (C) 2016 Elsevier Ltd. All rights reserved.

机译：基于该方法，从表面和下表面的连续回波信号中收集相位信息，同时测量了两层复合介质的每个介质层的厚度和超声波在每个介质层中传播的速度。这种测量是在无界面回波和固定试样总厚度的条件下进行的。该方法可以应用于任何两种两层复合介质。本文仅使用35毫米厚的铜钢复合板作为实验示例。计算结果表明，超声波传播的厚度和速度的测量误差均小于0.2％，表明了该测量方法的有效性。（C）2016 Elsevier Ltd.保留所有权利。

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《Measurement》 |2016年第null期|共7页
作者
Zheng Gangfeng; Xia Wandong; Ma Liangbo; Sun Wei; Sun Chao; Xu Yiao; Zhao Xiaodong; Wang Kaifeng;
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正文语种 eng
中图分类计量学;
关键词
Nondestructive testing (NDT); Ultrasonic wave; FFT; Error;

机译：无损检测（NDT）;超声波;FFT;误差;

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1. An experimental method to measure the layer thickness and wave velocity of copper-steel composite board without interface echo [J] . Zheng Gangfeng, Xia Wandong, Ma Liangbo, Measurement . 2016,第Null期

机译：一种无界面回波的铜钢复合板层厚和波速测量的实验方法
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机译：边界层厚度和速度剖面对浸没在边界层中的物体压力分布影响的实验研究

An experimental method to measure the layer thickness and wave velocity of copper-steel composite board without interface echo

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