Ultrasonic thickness gages have progressed a long way since their early development in the 1960's. The first thickness gages were large and bulky although they used the same conventional longitudinal (compressional wave) techniques still in use today. Thickness gages are used in a wide variety of industries including refineries, power plants, process control, oil and gas, transportation, automotive and manufacturing to name a few. An Ultrasonic thickness gages are excellent devices when access to only one side is possible. Ultrasound can be used on most engineering materials such as steel, aluminum, glass, plastics, composites and rubber. Ultrasound, by its very name, means high frequency sound. In the case of conventional ultrasonic thickness gages, the sound does not pass through air. As such, a fluid, known as couplant, must be applied to the test surface much like the gel used in medical ultrasound to image babies. Also, due to the millions of cycles generated per second, ultrasound is generally not applicable to wood, concrete or porous materials due to the presence of air pockets which are not conducive to the passage of sound waves. The formula to calculate one sided ultrasonic thickness measurements is as follows: T(velence)V*t/2 where (T) is Thickness, (V) is the Acoustic sound Velocity of the test material and (t) is the transit time. We divide by 2 to represent the round trip in the test material.
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机译:自1960年代早期发展以来,超声波测厚仪已经取得了长足的进步。尽管第一厚度计使用了仍沿用至今的传统纵向(压缩波)技术,但它们又大又笨重。测厚仪用于许多行业,包括炼油厂,发电厂,过程控制,石油和天然气,运输,汽车和制造业。当仅可以进入一侧时,超声波测厚仪是出色的设备。超声波可用于大多数工程材料,例如钢,铝,玻璃,塑料,复合材料和橡胶。超声波,顾名思义,就是高频声音。对于传统的超声波测厚仪,声音不会通过空气。因此,必须将一种称为耦合剂的液体涂在测试表面上,就像医学超声中使用的凝胶一样,可以给婴儿成像。而且,由于每秒产生数百万个循环,由于存在不利于声波通过的气穴,超声通常不适用于木材,混凝土或多孔材料。计算单侧超声厚度测量值的公式如下:T(velence)V * t / 2其中,(T)是厚度,(V)是测试材料的声速,而(t)是传播时间。我们除以2来表示测试材料中的往返行程。
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