测量超声电磁声换能器的改进

IF 0.1 Q4 INSTRUMENTS & INSTRUMENTATION
Marharyta Pozniakova, Grigory Suchkov, R. Mygushchenko, O. Kropachek, Andriy Donchenko
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引用次数: 0

摘要

基于先前发表的研究和研究的分析,已经确定,尽管它们在测量,测试和诊断薄介质涂层(通过油漆,塑料等)金属产品方面比传统的“接触式”传感器具有显着优势,但现有的电磁声换能器提供的灵敏度不足和显著的不受控制(“死”)区。这种情况使薄板、管道、壳体、储罐等的测试复杂化,有时使测量金属的剩余厚度成为不可能。对已有研究的分析表明,传统的提高磁感应值的方法可以提高换能器的灵敏度,而高频电流值实际上已经耗尽。同时,对改进电磁声换能器设计的前景进行了展望。通过开发新的电子控制电路,解决了传统换能器存在的问题。为此,将控制单元设计为分布在超声剪切脉冲激励装置之间,对于接收金属加工反射的超声信号的装置,提高了装置的灵敏度。此外,为了提供测试和测量薄金属产品厚度的可能性,电子电路在变换器的高频电流强大供电后补充了干扰抑制手段,这使得“死区”大大减少。搭建了一个特殊的支架来实验测试所开发的换能器的能力,包括一个强大的高频电流脉冲发生器,一个接收超声波脉冲的放大器和一个数字示波器。实验证明,新型的非接触式传感器电路可以与探测脉冲发生器和接收到的超声包信号放大器进行定性匹配。结果,传感器的灵敏度提高了2.5…3倍于底脉冲和干扰的振幅。同时,对厚度为30的金属制品进行了诊断。保证比传统非接触式器件的灵敏度阈值低50%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improvement of the measuring ultrasonic electromagnetic-acoustic transducer
Based on the analysis of previously published research and studies, it has been established that despite their significant advantages over traditional “contact” sensors in measurements, testing and diagnostics of thin dielectric coated (via paint, plastic, etc.) metal products, the available electromagnetic-acoustic transducers provide insufficient sensitivity and significant uncontrolled (“dead”) zone. This situation complicates testing of thin sheets, pipes, shells, tanks etc., and sometimes makes it impossible to measure the remaining thickness of the metal. The analysis of available research has shown that the possibility of transducers sensitivity increases via traditional increase in the magnetic induction value, and the high-frequency current value is practically exhausted. At the same time, the prospects for improving the design of electromagnetic-acoustic transducers were determined. The problems of traditional transducers were solved through development of a new electronic control circuit. For this, the control unit was designed to be distributed between ultrasonic shear pulse excitation devices, and as a result, for the device of ultrasonic signals reflected from the metalwork reception, the device sensitivity was increased. In addition, to provide the possibility to test and measure thin metal product thickness, the electronic circuit was supplemented with means of interference suppression after the powerful supply of the high-frequency current of the converter, which allowed significantly reducing the “dead” zone. A special stand was constructed to experimentally test the capabilities of the transducer developed, including a powerful high-frequency current pulse generator, an amplifier of received ultrasonic pulses and a digital oscilloscope. It has been experimentally demonstrated that the new electronic circuit of the non-contact sensor allows it to be qualitatively matched with the probing pulse generator and the amplifier of the received ultrasonic packet signals. As a result, the sensitivity of the transducer was increased by 2.5...3 times in relation to the amplitudes of bottom pulses and interference. At the same time, the diagnostics of metal products with thickness 30...50% less than the traditional sensitivity threshold of non-contact device is ensured.
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来源期刊
Ukrainian Metrological Journal
Ukrainian Metrological Journal INSTRUMENTS & INSTRUMENTATION-
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