calibrations

简明释义

英[ˌkælɪˈbreɪʃənz]美[ˌkælɪˈbreɪʃənz]

n. 校准（calibration 的复数）；[仪]刻度

英英释义

单词用法

同义词

反义词

例句

1.The mathematical model of the attitude measurement is established, and partial and global calibrations are realized for the multi-camera attitude measurement system.

建立了外姿态测量的数学模型，实现了基于多相机姿态测量系统的局部标定和全局标定。

2.Calibration Interval The number of work days, work weeks, months etc. between two scheduled calibrations.

调校周期两个调校之间的工作天、工作星期、工作月份等。

3.According to the obvious difference of yaw-bias in different voyage calibrations, the result of analysis shows that the leeway and drift Angle is the primary reason.

针对目前多波束艏摇偏差参数不同航次校准其结果相差很大的问题，分析得出了风流压差是产生此差值的主要原因。

4.All documentation of calibrations will be reviewed at time of audit.

验厂时，需要查阅所有的校验文件。

5.To enable dimensional calibrations in the same set-up as for form measurements, a plane-mirror laser interferometer has been added.

使空间的口径测定能够在那相同的组合-向上的当做为形式测量，一个飞机-镜子激光干涉计有被增加。

6.Records are available of calibrations, inspections, and checks of any automated, mechanical, or electronic equipment.

保留对自动的，机械的与电子的设备校正，检验，检查的记录。

7.The phase difference calibrations between different measuring channels in an instrument system are also discussed.

本文还就相位测量中仪器系统的相移标定进行讨论。

8.The tests show that the results of the two sizing calibrations are almost consistent with each other.

结果表明： 不同的标定方法的标定结果的差别不大， 对样液分析的结果在允许的误差范围内。

9.The technician performed regular calibrations to ensure the accuracy of the measuring instruments.

技术人员进行了定期的校准以确保测量仪器的准确性。

10.The software requires calibrations to adapt to the new hardware setup.

该软件需要进行校准以适应新的硬件设置。

11.Regular calibrations are essential for maintaining the quality of the production line.

定期的校准对于保持生产线的质量至关重要。

12.The calibrations on the pressure gauge were off, leading to incorrect readings.

压力表上的校准出现问题，导致读数不正确。

13.Before starting the experiment, the scientist checked the calibrations of the equipment.

在开始实验之前，科学家检查了设备的校准。

作文

In the realm of science and technology, the term calibrations refers to the process of adjusting and fine-tuning instruments or equipment to ensure their accuracy and precision. This practice is essential in various fields, including engineering, medicine, and environmental science. For instance, when a thermometer is used to measure temperature, it must undergo calibrations to confirm that it provides correct readings. Without proper calibrations, the data collected could lead to significant errors, potentially affecting research outcomes or even endangering lives in medical settings.The importance of calibrations cannot be overstated. In laboratory environments, scientists rely on precise measurements to conduct experiments and analyze results. If the instruments are not properly calibrated, the validity of the experiment can be compromised. For example, in pharmaceutical research, the dosage of a drug must be measured accurately; any discrepancies due to faulty calibrations could result in ineffective treatments or adverse effects.Moreover, calibrations play a critical role in industrial applications. Manufacturing processes often require strict adherence to specifications, where even minor deviations can lead to defective products. By implementing regular calibrations, companies can maintain quality control and ensure that their products meet industry standards. This practice not only enhances product reliability but also builds consumer trust.In addition to scientific and industrial contexts, calibrations are also vital in everyday technology. For instance, smartphones and digital devices use sensors that must be calibrated to function correctly. Whether it’s the GPS system that requires accurate positioning or the camera that needs proper color balance, calibrations ensure that these devices perform as intended. Users may not always be aware of the behind-the-scenes adjustments, but they significantly impact the overall user experience.Furthermore, the process of calibrations is not a one-time event but rather an ongoing necessity. Instruments can drift out of alignment over time due to wear and tear, environmental factors, or even changes in usage patterns. Therefore, routine calibrations are crucial to maintain the integrity of the equipment. Many organizations establish schedules for periodic checks and adjustments to minimize the risk of inaccuracies.In conclusion, calibrations are an integral part of ensuring accuracy and reliability across various domains. From scientific research to industrial manufacturing and everyday technology, the need for precise measurements cannot be ignored. Regular calibrations help maintain the performance of instruments and devices, ultimately leading to better outcomes and enhanced safety. As technology continues to advance, the significance of calibrations will only grow, highlighting the need for professionals to stay informed about best practices in this essential field.

在科学和技术领域，术语calibrations指的是调整和微调仪器或设备的过程，以确保其准确性和精确性。这一实践在工程、医学和环境科学等多个领域至关重要。例如，当温度计用于测量温度时，它必须经过calibrations以确认其提供的读数是正确的。如果没有适当的calibrations，收集的数据可能会导致重大错误，从而影响研究结果，甚至在医疗环境中危及生命。calibrations的重要性不容小觑。在实验室环境中，科学家依赖精确的测量来进行实验和分析结果。如果仪器没有经过适当的校准，实验的有效性可能会受到影响。例如，在制药研究中，药物的剂量必须准确测量；由于错误的calibrations造成的任何偏差都可能导致无效治疗或不良反应。此外，calibrations在工业应用中也发挥着关键作用。制造过程通常需要严格遵守规范，即使是微小的偏差也可能导致缺陷产品。通过实施定期的calibrations，公司可以保持质量控制，确保其产品符合行业标准。这一做法不仅提高了产品的可靠性，还建立了消费者信任。除了科学和工业背景，calibrations在日常技术中也至关重要。例如，智能手机和数字设备使用的传感器必须经过校准才能正常工作。无论是需要准确定位的GPS系统，还是需要正确色彩平衡的相机，calibrations确保这些设备按预期功能运行。用户可能并不总是意识到幕后的调整，但它们对整体用户体验有着重大影响。此外，calibrations的过程并不是一次性的事件，而是一个持续的必要性。随着时间的推移，由于磨损、环境因素或甚至使用模式的变化，仪器可能会失去校准。因此，定期的calibrations对于维护设备的完整性至关重要。许多组织建立了定期检查和调整的时间表，以最小化不准确的风险。总之，calibrations是确保各个领域准确性和可靠性的重要组成部分。从科学研究到工业制造，再到日常技术，对精确测量的需求不可忽视。定期的calibrations有助于维护仪器和设备的性能，最终带来更好的结果和增强的安全性。随着技术的不断进步，calibrations的重要性只会增加，这突显了专业人员了解这一重要领域最佳实践的必要性。