ultrasonic wave meter

简明释义

超声波测波仪

英英释义

例句

1.In construction, an ultrasonic wave meter is essential for detecting flaws in concrete structures.

在建筑中，超声波测厚仪对于检测混凝土结构中的缺陷至关重要。

2.The engineer used an ultrasonic wave meter to measure the thickness of the metal in the pipeline.

工程师使用超声波测厚仪来测量管道中金属的厚度。

3.During maintenance, technicians relied on the ultrasonic wave meter to identify corrosion in pipes.

在维护期间，技术人员依靠超声波测厚仪来识别管道中的腐蚀。

4.To ensure accurate readings, the ultrasonic wave meter must be calibrated regularly.

为了确保读数准确，超声波测厚仪必须定期校准。

5.The ultrasonic wave meter can also be used to monitor the level of liquids in tanks.

该超声波测厚仪还可以用于监测储罐中液体的水平。

作文

In the field of science and technology, various tools and instruments have been developed to measure different physical phenomena. One such instrument that has gained significant importance is the ultrasonic wave meter (超声波测量仪). This device utilizes ultrasonic waves to measure distances, thicknesses, and even fluid levels in various applications. The principle behind the ultrasonic wave meter is based on the reflection of sound waves that are beyond the range of human hearing. When these ultrasonic waves are emitted from the device, they travel through the medium until they encounter an object. Upon hitting the object, the waves reflect back to the sensor in the meter. By calculating the time it takes for the waves to return, the ultrasonic wave meter can accurately determine the distance to the object.The versatility of the ultrasonic wave meter makes it invaluable across many industries. In construction, for instance, it is used to measure the thickness of walls and other structural components, ensuring that safety standards are met. Similarly, in manufacturing, this device helps in quality control by measuring the dimensions of products during the production process. Furthermore, the ultrasonic wave meter is widely used in the field of environmental monitoring. It can measure water levels in rivers and lakes, providing crucial data for flood management and environmental protection.One of the major advantages of using an ultrasonic wave meter is its non-invasive nature. Unlike traditional measuring methods that may require contact with the object, ultrasonic measurement is done without direct contact. This feature is particularly important when dealing with hazardous materials or delicate surfaces that could be damaged by physical contact. Moreover, the ultrasonic wave meter offers high accuracy and reliability, making it a preferred choice for professionals in various fields.However, there are some limitations associated with the use of ultrasonic wave meters. For example, the performance of these devices can be affected by environmental factors such as temperature, humidity, and the presence of dust or foam on the surface of the object being measured. Additionally, the ultrasonic wave meter may struggle with measuring very soft or highly absorbent materials, as these can dampen the ultrasonic waves and lead to inaccurate readings.Despite these challenges, the advancements in technology continue to enhance the functionality of ultrasonic wave meters. Modern devices are equipped with sophisticated algorithms and sensors that improve their performance in various conditions. As industries evolve and the demand for precise measurements grows, the role of the ultrasonic wave meter is expected to expand further.In conclusion, the ultrasonic wave meter (超声波测量仪) is a remarkable tool that has transformed the way we measure distances and other parameters in numerous fields. Its ability to provide accurate, non-contact measurements makes it a valuable asset in construction, manufacturing, and environmental monitoring. As technology continues to advance, we can anticipate even greater innovations in the design and application of ultrasonic wave meters, further solidifying their importance in our modern world.

在科学和技术领域，已经开发出各种工具和仪器来测量不同的物理现象。其中一种获得重要性的仪器是超声波测量仪。该设备利用超声波来测量距离、厚度甚至液体水平，适用于各种应用。超声波测量仪的原理基于超出人类听觉范围的声波反射。当这些超声波从设备发出时，它们会穿过介质，直到遇到物体。碰到物体后，声波会反射回测量仪的传感器。通过计算声波返回所需的时间，超声波测量仪可以准确确定到物体的距离。超声波测量仪的多功能性使其在许多行业中变得不可或缺。例如，在建筑中，它用于测量墙壁和其他结构组件的厚度，以确保安全标准得到满足。同样，在制造业中，该设备有助于通过在生产过程中测量产品的尺寸来进行质量控制。此外，超声波测量仪广泛应用于环境监测领域。它可以测量河流和湖泊中的水位，为洪水管理和环境保护提供关键数据。使用超声波测量仪的主要优点之一是其非侵入性。与传统测量方法需要与物体接触不同，超声波测量是在没有直接接触的情况下完成的。这一特性在处理危险材料或可能因物理接触而受损的脆弱表面时尤其重要。此外，超声波测量仪提供高精度和可靠性，使其成为各个领域专业人士的首选。然而，使用超声波测量仪也存在一些局限性。例如，环境因素如温度、湿度以及物体表面存在的灰尘或泡沫可能会影响这些设备的性能。此外，超声波测量仪可能在测量非常软或高度吸收的材料时遇到困难，因为这些材料会减弱超声波并导致不准确的读数。尽管面临这些挑战，技术的进步继续增强超声波测量仪的功能。现代设备配备了复杂的算法和传感器，改善其在各种条件下的性能。随着行业的发展和对精确测量需求的增长，预计超声波测量仪的作用将进一步扩大。总之，超声波测量仪是一种了不起的工具，改变了我们在多个领域测量距离和其他参数的方式。其提供准确、非接触式测量的能力使其成为建筑、制造和环境监测中的宝贵资产。随着技术的不断进步，我们可以预见在超声波测量仪的设计和应用方面会有更大的创新，进一步巩固其在现代世界中的重要性。