calibrating run

简明释义

校准试航校准运行

英英释义

例句

1.After updating the software, a calibrating run was necessary to align the system with the new parameters.

在更新软件后，进行一个校准运行是必要的，以使系统与新参数对齐。

2.During the initial testing phase, we conducted a calibrating run to ensure all sensors were accurately measuring data.

在初始测试阶段，我们进行了一个校准运行以确保所有传感器准确测量数据。

3.We ran a calibrating run to adjust the pressure settings in the reactor.

我们进行了一个校准运行以调整反应器中的压力设置。

4.The engineers scheduled a calibrating run to fine-tune the machinery before the production started.

工程师们安排了一个校准运行以在生产开始前微调机器。

5.The research team performed a calibrating run to validate their experimental setup before collecting data.

研究团队进行了一个校准运行以在收集数据之前验证他们的实验设置。

作文

In the field of engineering and technology, precision is paramount. One of the essential processes that engineers undertake to ensure accurate measurements and optimal performance of machinery is known as a calibrating run. This term refers to the procedure of adjusting and fine-tuning equipment or instruments to align with a standard or specified set of parameters. The importance of a calibrating run cannot be overstated, as it directly impacts the reliability and efficiency of various systems, from manufacturing processes to scientific research.When we think about a calibrating run, we can visualize it as a critical step in the lifecycle of a machine. For instance, consider a factory that produces high-precision components for aerospace applications. Each piece of machinery involved in this process must operate within extremely tight tolerances. To achieve this, engineers perform regular calibrating runs to verify that the machines are functioning correctly and producing parts that meet the required specifications.During a calibrating run, technicians will often use reference standards to compare the output of the machine against known values. This could involve measuring dimensions, weights, or other relevant metrics to ensure that everything is operating as it should. If discrepancies are found, adjustments are made until the equipment is properly calibrated. This meticulous attention to detail not only enhances product quality but also minimizes waste and reduces the risk of costly errors.Moreover, a calibrating run is not just limited to physical machinery; it also applies to software systems and digital instruments. In the realm of data science, for example, algorithms need to be calibrated regularly to ensure they produce accurate predictions. A calibrating run in this context might involve running simulations and comparing the results to actual outcomes to adjust the algorithm's parameters accordingly. This ensures that the software remains effective and reliable over time.The significance of a calibrating run extends beyond immediate operational efficiency. It also plays a vital role in compliance with industry regulations and standards. Many industries, such as pharmaceuticals and food production, are subject to stringent regulatory requirements that mandate regular calibration of equipment. Failing to conduct proper calibrating runs can lead to non-compliance, resulting in legal repercussions and damage to a company’s reputation.In conclusion, the concept of a calibrating run is integral to maintaining the accuracy and reliability of both mechanical and digital systems. Whether in a manufacturing plant, a laboratory, or an office setting, the practice of regular calibration ensures that all equipment functions optimally and adheres to necessary standards. As technology continues to evolve, the methods and tools used for calibrating runs will also advance, but the fundamental principle of striving for precision and excellence will remain constant. Understanding and implementing effective calibrating runs is essential for any organization that values quality and strives for success in today's competitive landscape.

在工程和技术领域，精确性至关重要。工程师为确保机器的准确测量和最佳性能而进行的基本程序称为校准运行。这个术语指的是调整和微调设备或仪器，以使其与标准或指定参数对齐的过程。校准运行的重要性不容小觑，因为它直接影响到各种系统的可靠性和效率，从制造过程到科学研究。当我们想到校准运行时，可以将其视为机器生命周期中的关键步骤。例如，考虑一个生产航空航天应用高精度组件的工厂。参与这一过程的每台机器必须在极其严格的公差范围内运作。为了实现这一点，工程师会定期进行校准运行，以验证机器是否正常工作，并生产符合要求规格的零件。在校准运行期间，技术人员通常会使用参考标准，将机器的输出与已知值进行比较。这可能涉及测量尺寸、重量或其他相关指标，以确保一切正常运作。如果发现差异，就会进行调整，直到设备得到正确的校准。这种对细节的严格关注不仅提高了产品质量，还最小化了浪费，降低了成本错误的风险。此外，校准运行不仅限于物理机械，它也适用于软件系统和数字仪器。在数据科学领域，例如，算法需要定期校准，以确保它们产生准确的预测。在这种情况下，校准运行可能涉及运行模拟并将结果与实际结果进行比较，以相应地调整算法的参数。这确保了软件随着时间的推移保持有效和可靠。校准运行的重要性超越了直接的操作效率。它在遵守行业法规和标准方面也发挥着至关重要的作用。许多行业，如制药和食品生产，受到严格的监管要求，要求定期校准设备。不进行适当的校准运行可能导致不合规，造成法律后果和公司声誉的损害。总之，校准运行的概念对于维护机械和数字系统的准确性和可靠性至关重要。无论是在制造工厂、实验室还是办公室环境中，定期校准的做法确保所有设备都能最佳运作并遵循必要的标准。随着技术的不断发展，用于校准运行的方法和工具也将不断进步，但追求精确性和卓越性的基本原则将始终保持不变。理解和实施有效的校准运行对于任何重视质量并在当今竞争激烈的市场中追求成功的组织来说都是必不可少的。