thermoelectric pyrometer

简明释义

热电偶高温计

英英释义

例句

1.The factory uses a thermoelectric pyrometer to measure the temperature of molten metal during casting.

工厂使用热电测温仪来测量铸造过程中熔融金属的温度。

2.The thermoelectric pyrometer is calibrated regularly to maintain accuracy in temperature readings.

热电测温仪定期校准以保持温度读数的准确性。

3.During the welding process, the technician checks the temperature with a thermoelectric pyrometer to ensure optimal results.

在焊接过程中，技术员使用热电测温仪检查温度，以确保最佳结果。

4.In research laboratories, a thermoelectric pyrometer is essential for precise temperature monitoring in experiments.

在研究实验室中，热电测温仪对于实验中的精确温度监测至关重要。

5.The thermoelectric pyrometer allows for non-contact temperature measurements, which is crucial in high-temperature environments.

热电测温仪允许进行非接触式温度测量，这在高温环境中至关重要。

作文

In the field of temperature measurement, the thermoelectric pyrometer plays a crucial role in providing accurate and reliable readings. This device is primarily used to measure high temperatures, often in industrial settings where conventional thermometers may fail due to extreme heat. The thermoelectric pyrometer operates based on the principles of thermoelectricity, which involves the conversion of temperature differences into electrical voltage. This principle allows for precise temperature measurements without direct contact with the object being measured, making it ideal for various applications such as metal processing, glass manufacturing, and even in scientific research.One of the significant advantages of using a thermoelectric pyrometer is its ability to measure temperatures at a distance. This non-contact method is particularly beneficial when dealing with molten metals or other hazardous materials that could damage traditional sensors. Moreover, the thermoelectric pyrometer can provide real-time data, allowing operators to monitor processes continuously and make timely adjustments to ensure optimal performance.The construction of a thermoelectric pyrometer typically includes a thermoelectric sensor, which generates a voltage proportional to the temperature difference between the sensor and the target object. This voltage is then converted into a temperature reading through calibration and signal processing. Different types of thermoelectric pyrometers are available, each designed for specific temperature ranges and environmental conditions. For instance, some models can measure temperatures exceeding 2000 degrees Celsius, making them suitable for high-temperature applications.In addition to industrial applications, thermoelectric pyrometers are also utilized in laboratories and research facilities. Scientists often require precise temperature control in experiments, and using a thermoelectric pyrometer ensures that the temperature measurements are accurate and reliable. This precision is essential for experiments that involve chemical reactions, material testing, or any process where temperature fluctuations can lead to significant variations in results.The evolution of technology has also led to advancements in thermoelectric pyrometers, enhancing their capabilities and ease of use. Modern devices often come equipped with digital displays, data logging features, and connectivity options that allow for integration with computer systems. This technological integration enables users to analyze temperature data more efficiently and make informed decisions based on real-time information.In conclusion, the thermoelectric pyrometer is an indispensable tool in various fields requiring accurate temperature measurement. Its non-contact nature, high precision, and adaptability to different environments make it a preferred choice for many industries. As technology continues to advance, we can expect further improvements in the design and functionality of thermoelectric pyrometers, solidifying their place as essential instruments in both industrial and research applications.

在温度测量领域，热电测温仪在提供准确可靠的读数方面发挥着至关重要的作用。该设备主要用于测量高温，通常在工业环境中使用，因为传统温度计可能因极端高温而失效。热电测温仪基于热电原理工作，该原理涉及将温度差转换为电压。这一原理使得在不直接接触被测物体的情况下进行精确的温度测量成为可能，因而非常适合金属加工、玻璃制造甚至科学研究等各种应用。使用热电测温仪的一个显著优势是它能够远程测量温度。这种非接触式的方法在处理熔融金属或其他危险材料时尤其有益，因为这些材料可能会损坏传统传感器。此外，热电测温仪能够提供实时数据，使操作员能够持续监控过程，并及时调整以确保最佳性能。热电测温仪的结构通常包括一个热电传感器，该传感器产生与传感器和目标物体之间的温度差成比例的电压。然后，通过校准和信号处理将该电压转换为温度读数。不同类型的热电测温仪可供选择，每种都设计用于特定的温度范围和环境条件。例如，一些型号能够测量超过2000摄氏度的温度，使其适用于高温应用。除了工业应用外，热电测温仪还广泛用于实验室和研究机构。科学家通常需要在实验中精确控制温度，而使用热电测温仪可以确保温度测量的准确性和可靠性。这种精确性对于涉及化学反应、材料测试或任何温度波动可能导致结果显著变化的过程至关重要。技术的进步也促进了热电测温仪的发展，提高了其功能和易用性。现代设备通常配备数字显示、数据记录功能和连接选项，可以与计算机系统集成。这种技术集成使用户能够更有效地分析温度数据，并根据实时信息做出明智的决策。总之，热电测温仪是在各种需要精确温度测量的领域中不可或缺的工具。它的非接触特性、高精度和对不同环境的适应性使其成为许多行业的首选。随着技术的不断进步，我们可以期待热电测温仪在设计和功能上的进一步改进，巩固其在工业和研究应用中的重要地位。