calibration table

简明释义

校准数值表

英英释义

例句

1.The technician adjusted the equipment based on the values from the calibration table 校准表 provided by the manufacturer.

技术员根据制造商提供的calibration table 校准表调整了设备。

2.To maintain the quality of our products, we regularly update the calibration table 校准表 used in our production line.

为了保持产品质量，我们定期更新生产线使用的calibration table 校准表。

3.Before conducting the experiment, we need to refer to the calibration table 校准表 to ensure our measurements are accurate.

在进行实验之前，我们需要查阅calibration table 校准表以确保我们的测量是准确的。

4.It's essential to check the calibration table 校准表 for discrepancies before finalizing the report.

在最终报告之前，检查calibration table 校准表是否存在差异是至关重要的。

5.The software automatically adjusts the readings using the calibration table 校准表 integrated within the system.

软件会自动使用系统中集成的calibration table 校准表来调整读数。

作文

In the field of science and engineering, precision is of paramount importance. One of the tools that help achieve this precision is the calibration table. A calibration table is a reference tool used to ensure that measurements taken by various instruments are accurate. It serves as a standard against which the performance of measuring devices can be compared and adjusted. This process of calibration is essential in numerous applications, from laboratory experiments to industrial manufacturing processes.The concept of a calibration table can be understood better by considering its role in a laboratory setting. For instance, when scientists conduct experiments, they often rely on various instruments such as scales, thermometers, and pressure gauges. Each of these instruments must provide accurate readings to ensure the validity of the experimental results. A calibration table provides the necessary benchmarks for each instrument, allowing scientists to verify and adjust their measurements accordingly.Moreover, the use of a calibration table is not limited to scientific research. In industries such as manufacturing, precise measurements are crucial for maintaining quality control. For example, when producing automotive parts, manufacturers must ensure that each component meets strict specifications. By using a calibration table, they can regularly check the accuracy of their measuring tools, thereby minimizing errors and ensuring that every part produced fits perfectly.The process of creating a calibration table involves several steps. First, a set of known standards must be established. These standards are typically based on national or international measurement systems, ensuring consistency across different regions and industries. Once the standards are set, various measuring instruments are tested against these benchmarks. The results are then compiled into a calibration table, which lists the expected values alongside the actual readings from the instruments.In addition to its practical applications, a calibration table also plays a vital role in education and training. Students studying fields such as physics, chemistry, or engineering learn about the importance of calibration through hands-on experience with these tables. Understanding how to read and interpret a calibration table not only enhances their technical skills but also instills a deeper appreciation for the accuracy required in scientific work.However, it is important to note that maintaining a calibration table requires ongoing effort. Instruments can drift out of calibration over time due to wear and tear or environmental factors. Therefore, regular checks and adjustments are necessary to ensure that the calibration table remains accurate and reliable. This is why many organizations implement routine calibration schedules as part of their quality assurance processes.In conclusion, the calibration table is an indispensable tool in various fields that require precise measurements. Its ability to provide a standard for comparison ensures that instruments perform accurately, thereby enhancing the reliability of data collected in both scientific research and industrial applications. As technology continues to advance, the role of calibration tables will undoubtedly evolve, but their fundamental purpose of ensuring measurement accuracy will remain unchanged. Ultimately, the importance of understanding and utilizing a calibration table cannot be overstated, as it is foundational to achieving excellence in any measurement-dependent discipline.

在科学和工程领域，精确性至关重要。帮助实现这一精确性的工具之一就是校准表。校准表是一种参考工具，用于确保各种仪器所测得的测量值是准确的。它作为一个标准，用于比较和调整测量设备的性能。这种校准过程在许多应用中都是必不可少的，从实验室实验到工业制造过程。通过考虑校准表在实验室环境中的作用，可以更好地理解这一概念。例如，当科学家进行实验时，他们通常依赖于各种仪器，如天平、温度计和压力计。每个仪器都必须提供准确的读数，以确保实验结果的有效性。校准表提供了每个仪器所需的基准，使科学家能够相应地验证和调整他们的测量。此外，校准表的使用并不限于科学研究。在制造等行业中，精确的测量对保持质量控制至关重要。例如，在生产汽车零件时，制造商必须确保每个组件符合严格的规格。通过使用校准表，他们可以定期检查测量工具的准确性，从而最小化错误，确保每个生产的零件都能完美匹配。创建校准表的过程涉及几个步骤。首先，必须建立一组已知标准。这些标准通常基于国家或国际测量系统，确保不同地区和行业之间的一致性。一旦标准设定，各种测量仪器就会根据这些基准进行测试。结果然后被编入一个校准表，该表列出了期望值与仪器的实际读数。除了其实际应用外，校准表在教育和培训中也发挥着重要作用。学习物理、化学或工程等领域的学生通过与这些表的实践经验了解校准的重要性。理解如何读取和解释校准表不仅增强了他们的技术技能，还增强了他们对科学工作中所需精确性的深刻理解。然而，值得注意的是，维护校准表需要持续的努力。由于磨损或环境因素，仪器可能会随着时间的推移而失去校准。因此，定期检查和调整是确保校准表保持准确和可靠所必需的。这就是为什么许多组织将例行校准计划作为其质量保证流程的一部分。总之，校准表是各种需要精确测量的领域中不可或缺的工具。它提供的比较标准确保仪器的准确性能，从而增强了在科学研究和工业应用中收集数据的可靠性。随着技术的不断进步，校准表的角色无疑会演变，但其确保测量准确性的基本目的将保持不变。最终，理解和利用校准表的重要性不容低估，因为它是实现任何依赖测量的学科卓越的基础。