through type pyrometer

简明释义

贯通式高温计

英英释义

例句

1.In glass manufacturing, a through type pyrometer is essential for monitoring the furnace temperature.

在玻璃制造中，透射式温度计对于监控炉温至关重要。

2.For accurate readings, the through type pyrometer must be calibrated regularly.

为了获得准确的读数，透射式温度计必须定期校准。

3.The engineer used a through type pyrometer to measure the temperature of the molten metal during the casting process.

工程师使用透射式温度计来测量铸造过程中熔融金属的温度。

4.The through type pyrometer allows for non-contact temperature measurement, which is crucial in high-temperature environments.

透射式温度计允许非接触式温度测量，这在高温环境中至关重要。

5.During the experiment, the researchers relied on a through type pyrometer to ensure precise thermal readings.

在实验过程中，研究人员依靠透射式温度计确保精确的热读数。

作文

In the world of industrial measurement, the accuracy and efficiency of temperature readings are paramount. One of the innovative tools that have emerged to meet these needs is the through type pyrometer. This device is designed to measure high temperatures without direct contact with the object being measured, which is particularly useful in various applications such as metal processing, glass manufacturing, and ceramics production. The through type pyrometer operates on the principle of infrared radiation. It detects the thermal radiation emitted by an object and converts it into a temperature reading. This method allows for quick and reliable measurements, making it an essential instrument in many industries.The functionality of the through type pyrometer is quite fascinating. Unlike traditional thermometers that require physical contact with the material, this pyrometer can measure temperature from a distance. This is especially important when dealing with extremely hot materials that could damage conventional sensors or pose safety risks to operators. For instance, in a steel mill, molten metal can reach temperatures exceeding 1500 degrees Celsius. Using a through type pyrometer, workers can monitor the temperature of the molten metal without any risk of burns or equipment failure.Moreover, the through type pyrometer is highly versatile. It can be used in various environments, including those that are hazardous or difficult to access. Its design allows it to measure temperatures through barriers, such as glass or protective coatings, making it valuable in situations where other measurement methods would fail. This versatility not only enhances safety but also improves operational efficiency, as it reduces the need for complex setups or additional equipment.Another significant advantage of the through type pyrometer is its ability to provide real-time temperature data. In fast-paced industrial processes, having immediate access to accurate temperature readings can make a substantial difference in product quality and process control. For example, in the production of glass, maintaining the correct temperature is crucial to ensure the desired properties of the final product. A through type pyrometer enables operators to make quick adjustments, ensuring that the glass maintains its integrity and quality.However, it is essential to understand the limitations and challenges associated with the through type pyrometer. Factors such as emissivity, the property of a material that affects how much thermal radiation it emits, can influence the accuracy of the readings. Different materials have different emissivity values, and if not accounted for, this can lead to incorrect temperature measurements. Therefore, users must calibrate the device appropriately and understand the materials they are working with to ensure accurate results.In conclusion, the through type pyrometer represents a significant advancement in temperature measurement technology. Its non-contact measurement capabilities, versatility, and ability to provide real-time data make it an invaluable tool in various industries. As technology continues to evolve, the importance of accurate temperature measurement will only increase, solidifying the through type pyrometer's role in ensuring efficiency, safety, and quality in industrial processes. Understanding how to leverage this technology effectively can lead to improved outcomes and innovations in manufacturing and processing operations.

在工业测量的世界中，温度读数的准确性和效率至关重要。为了满足这些需求，出现了一种创新工具——透射式高温计。该设备旨在无接触地测量被测物体的高温，这在金属加工、玻璃制造和陶瓷生产等各种应用中尤为有用。透射式高温计基于红外辐射原理工作。它检测物体发出的热辐射并将其转换为温度读数。这种方法允许快速可靠的测量，使其成为许多行业必不可少的仪器。透射式高温计的功能令人着迷。与传统的温度计需要与材料直接接触不同，这种高温计可以从远处测量温度。这在处理极高温材料时尤其重要，因为这些材料可能会损坏常规传感器或对操作人员构成安全风险。例如，在钢铁厂，熔融金属的温度可能超过1500摄氏度。使用透射式高温计，工人可以在没有烧伤或设备故障风险的情况下监测熔融金属的温度。此外，透射式高温计具有高度的多功能性。它可以在各种环境中使用，包括那些危险或难以接近的环境。其设计使其能够通过障碍物（如玻璃或保护涂层）测量温度，这在其他测量方法失效的情况下显得尤为宝贵。这种多功能性不仅增强了安全性，还提高了操作效率，因为它减少了复杂设置或额外设备的需求。透射式高温计的另一个显著优势是能够提供实时温度数据。在快速变化的工业过程中，能够立即获取准确的温度读数可以对产品质量和过程控制产生重大影响。例如，在玻璃生产中，保持正确的温度对于确保最终产品的所需特性至关重要。透射式高温计使操作人员能够快速调整，确保玻璃保持其完整性和质量。然而，了解透射式高温计的局限性和挑战也很重要。诸如发射率等因素，即材料的特性，会影响读数的准确性。不同的材料具有不同的发射率值，如果不加以考虑，可能会导致温度测量不准确。因此，用户必须适当地校准设备，并了解他们正在处理的材料，以确保结果的准确性。总之，透射式高温计代表了温度测量技术的重大进步。其非接触测量能力、多功能性和提供实时数据的能力使其成为各个行业中不可或缺的工具。随着技术的不断发展，准确温度测量的重要性只会增加，从而巩固透射式高温计在确保工业过程效率、安全性和质量中的作用。有效利用这一技术可以带来更好的结果和制造及加工操作中的创新。