calibration chart

简明释义

1. 校准表; 2. 刻度图版; 3. 刻度图表;

英英释义

例句

1.The technician used the calibration chart (校准图) to adjust the settings on the machine.

技术人员使用calibration chart (校准图)来调整机器的设置。

2.For the best results, always refer to the calibration chart (校准图) provided by the manufacturer.

为了获得最佳效果，请始终参考制造商提供的calibration chart (校准图)。

3.Before starting the experiment, make sure to consult the calibration chart (校准图) for accurate measurements.

在开始实验之前，请确保查阅calibration chart (校准图)以获得准确的测量。

4.The calibration chart (校准图) showed a discrepancy in the readings, indicating a need for recalibration.

该calibration chart (校准图)显示读数存在差异，表明需要重新校准。

5.It's essential to update the calibration chart (校准图) regularly to ensure precision.

定期更新calibration chart (校准图)是确保精度的关键。

作文

In various fields such as engineering, science, and manufacturing, accurate measurements are crucial for ensuring quality and performance. One essential tool that aids in achieving precise measurements is the calibration chart. A calibration chart is a graphical representation that illustrates the relationship between the output of a measurement device and the true value of the parameter being measured. This chart serves as a reference to adjust and correct the outputs from measurement instruments, ensuring their accuracy over time.The process of calibration involves comparing the measurements from an instrument against a known standard. For instance, in a laboratory setting, if a thermometer is used to measure temperature, it must be calibrated against a standard thermometer that is recognized for its precision. The resulting data from this comparison can then be plotted on a calibration chart, which visually represents how far off the instrument's readings are from the actual values.Creating a calibration chart is a systematic process. Initially, a series of measurements are taken at various known points. These points are then plotted on a graph where the x-axis represents the true values and the y-axis represents the measured values. By analyzing the plotted points, one can identify any discrepancies and create a line or curve that best fits the data. This line or curve is crucial as it provides a means to interpret the results of future measurements. If the instrument deviates from the expected values, adjustments can be made based on the calibration chart.The importance of a calibration chart cannot be overstated. In industries such as pharmaceuticals, where precise dosages of medication are vital, having accurate measuring instruments is critical. A small error in measurement can lead to significant consequences for patient safety. Similarly, in manufacturing processes, tolerances are often very tight, and any deviation can result in defective products. Here, a well-maintained calibration chart ensures that all measuring devices are functioning correctly, thereby maintaining product quality and consistency.Furthermore, calibration charts are not only useful for initial calibrations but also play a crucial role in ongoing maintenance. Regular checks against the calibration chart help in identifying any drift in measurement accuracy over time. Instruments can be recalibrated as needed, ensuring that they remain reliable and accurate throughout their operational life.In conclusion, a calibration chart is an invaluable tool in ensuring the accuracy and reliability of measurement instruments across various fields. By providing a clear visual representation of the relationship between measured values and true values, it facilitates the calibration process and helps maintain high standards of quality. Whether in a laboratory, a manufacturing plant, or any other setting where precise measurements are necessary, the presence of a calibration chart is essential for achieving optimal performance and safety. As technology continues to advance, the methods of creating and utilizing calibration charts will evolve, but their fundamental importance will remain unchanged.

在工程、科学和制造等各个领域，准确的测量对于确保质量和性能至关重要。一个帮助实现精确测量的重要工具是校准图表。校准图表是一个图形表示，说明了测量设备的输出与被测参数的真实值之间的关系。这个图表作为参考，用于调整和修正测量仪器的输出，从而确保它们随着时间的推移保持准确。校准过程涉及将仪器的测量结果与已知标准进行比较。例如，在实验室环境中，如果使用温度计测量温度，则必须与一个被公认为精确的标准温度计进行校准。这种比较所产生的数据可以绘制在校准图表上，该图表直观地表示出仪器读数与实际值之间的偏差。创建校准图表是一个系统化的过程。最初，在不同的已知点进行一系列测量。这些点随后被绘制在一个图表上，其中x轴代表真实值，y轴代表测量值。通过分析绘制的点，可以识别任何差异，并创建一条或曲线，最佳拟合数据。这条线或曲线至关重要，因为它提供了一种解释未来测量结果的方法。如果仪器偏离预期值，可以根据校准图表进行调整。校准图表的重要性不容小觑。在制药等行业中，精确的药物剂量至关重要，拥有准确的测量仪器是关键。测量中的小错误可能会对患者安全产生重大影响。同样，在制造过程中，公差通常非常严格，任何偏差都可能导致缺陷产品。在这里，维护良好的校准图表确保所有测量设备正常工作，从而保持产品质量和一致性。此外，校准图表不仅在初次校准中有用，还在持续维护中发挥着关键作用。定期检查校准图表有助于识别随时间推移测量准确性的任何漂移。仪器可以根据需要重新校准，确保它们在整个操作生命周期内保持可靠和准确。总之，校准图表是在确保各个领域测量仪器准确性和可靠性方面的重要工具。通过提供测量值与真实值之间关系的清晰视觉表示，它促进了校准过程，并帮助维持高标准的质量。无论是在实验室、制造厂，还是在任何其他需要精确测量的环境中，校准图表的存在对于实现最佳性能和安全至关重要。随着技术的不断进步，创建和利用校准图表的方法将不断演变，但它们的基本重要性将始终保持不变。