calibration coefficients

简明释义

1. 温度刻度系数; 2. 温度标定系数; 3. 温度校准系数;

英英释义

例句

1.Before starting the experiment, the researchers verified the calibration coefficients of their instruments.

在开始实验之前，研究人员验证了他们仪器的校准系数。

2.The laboratory technician adjusted the calibration coefficients to ensure accurate measurements of the chemical concentrations.

实验室技术员调整了校准系数以确保化学浓度的准确测量。

3.The calibration coefficients are essential for the precision of the electronic sensors used in the medical devices.

在医疗设备中使用的电子传感器的精确度依赖于校准系数。

4.Adjusting the calibration coefficients can significantly improve the accuracy of the data collected.

调整校准系数可以显著提高收集数据的准确性。

5.In order to maintain quality control, the factory routinely checks the calibration coefficients of its machinery.

为了保持质量控制，工厂定期检查其机器的校准系数。

作文

In the field of science and engineering, precise measurements are crucial for ensuring accurate results. One of the key elements in achieving this accuracy is the use of calibration coefficients（校准系数）. These coefficients play a vital role in the calibration process of measuring instruments, allowing them to provide data that is both reliable and valid. Without proper calibration, the results obtained from experiments or measurements can be misleading, leading to incorrect conclusions and potentially costly errors.Calibration is the process of adjusting the output or response of a measuring instrument to correspond accurately to the value of the quantity being measured. This adjustment is typically done by comparing the instrument's readings with a standard reference. The calibration coefficients（校准系数） are numerical values that represent the relationship between the measured value and the true value. They are derived from the calibration process and are essential for correcting any discrepancies between the instrument's readings and the actual values.For instance, consider a temperature sensor used in industrial applications. If the sensor reads 100 degrees Celsius when the actual temperature is 95 degrees Celsius, a calibration coefficient（校准系数） can be calculated to adjust future readings. By applying this coefficient, the sensor can provide more accurate temperature readings, thus ensuring the safety and efficiency of the processes it monitors.The determination of calibration coefficients（校准系数） involves statistical analysis and often requires multiple measurements to establish a reliable relationship. This process not only enhances the accuracy of the instrument but also helps in identifying any potential drift in measurement over time. Instruments may experience changes due to environmental factors or wear and tear, making regular calibration essential.Moreover, calibration coefficients（校准系数） are not static; they can change based on various factors such as temperature, humidity, and even the age of the instrument. Therefore, it is important for engineers and technicians to regularly review and update these coefficients to maintain the integrity of their measurements. This ongoing process ensures that the instruments remain compliant with industry standards and regulations, which are critical in fields like pharmaceuticals, aerospace, and manufacturing.In conclusion, the concept of calibration coefficients（校准系数） is fundamental to the accuracy and reliability of measurement systems. Understanding how to determine and apply these coefficients is essential for professionals in scientific and engineering disciplines. By ensuring that instruments are properly calibrated, we can trust the data they provide, leading to informed decisions and successful outcomes in various applications. Whether in research laboratories, production lines, or field measurements, the importance of calibration coefficients（校准系数） cannot be overstated. They are the backbone of precision measurement, ensuring that our understanding of the world around us is based on accurate and trustworthy data.

在科学和工程领域，精确的测量对于确保准确的结果至关重要。实现这种准确性的关键要素之一是使用校准系数。这些系数在测量仪器的校准过程中发挥着重要作用，使其能够提供可靠且有效的数据。如果没有适当的校准，从实验或测量中获得的结果可能会产生误导，导致错误的结论和潜在的高昂成本。校准是调整测量仪器的输出或响应，以准确对应被测量量的值的过程。这个调整通常是通过将仪器的读数与标准参考进行比较来完成的。校准系数是表示测量值与真实值之间关系的数值。它们是从校准过程中得出的，对于纠正仪器读数与实际值之间的任何差异至关重要。例如，考虑一个用于工业应用的温度传感器。如果传感器在实际温度为95摄氏度时读数为100摄氏度，则可以计算出一个校准系数以调整未来的读数。通过应用这个系数，传感器可以提供更准确的温度读数，从而确保其监测的过程的安全性和效率。校准系数的确定涉及统计分析，通常需要多次测量以建立可靠的关系。这个过程不仅提高了仪器的准确性，还帮助识别测量随时间推移的任何潜在漂移。仪器可能由于环境因素或磨损而经历变化，因此定期校准是必不可少的。此外，校准系数不是静态的；它们可能会根据温度、湿度甚至仪器的使用年限而变化。因此，工程师和技术人员定期审查和更新这些系数以保持测量的完整性是很重要的。这一持续的过程确保仪器符合行业标准和法规，这在制药、航空航天和制造等领域至关重要。总之，校准系数的概念是测量系统准确性和可靠性的重要基础。理解如何确定和应用这些系数对于科学和工程学科的专业人士至关重要。通过确保仪器经过适当校准，我们可以信任它们提供的数据，从而在各种应用中做出明智的决策和取得成功的结果。无论是在研究实验室、生产线还是现场测量，校准系数的重要性都不容小觑。它们是精密测量的支柱，确保我们对周围世界的理解基于准确和可信的数据。