eccentric error

简明释义

偏心差

英英释义

例句

1.During the calibration process, we discovered an eccentric error 偏心误差 that affected the accuracy of the measurements.

在校准过程中，我们发现了一个影响测量精度的偏心误差 eccentric error。

2.The technician adjusted the settings to minimize the eccentric error 偏心误差 in the laser alignment.

技术员调整设置以最小化激光对准中的偏心误差 eccentric error。

3.The engineer noted that the eccentric error 偏心误差 in the machine's rotation could lead to significant performance issues.

工程师指出，机器旋转中的偏心误差 eccentric error 可能会导致显著的性能问题。

4.The eccentric error 偏心误差 in the gear assembly caused unexpected wear and tear.

齿轮组件中的偏心误差 eccentric error 导致意外的磨损。

5.To improve the design, we analyzed the eccentric error 偏心误差 that occurred during testing.

为了改进设计，我们分析了测试过程中出现的偏心误差 eccentric error。

作文

In the field of measurement and instrumentation, the term eccentric error refers to an error that occurs when a measuring instrument is not properly aligned with the object being measured. This misalignment can lead to inaccurate readings and results, which can have significant implications in various applications, from scientific research to industrial processes. Understanding eccentric error is crucial for ensuring the reliability and accuracy of measurements, especially in fields where precision is paramount.For instance, consider a scenario in a laboratory where a scientist is using a micrometer to measure the diameter of a small rod. If the micrometer is not positioned correctly, perhaps due to a slight tilt or an improper angle, the reading may reflect an eccentric error. This means that the measurement taken will not accurately represent the true diameter of the rod, leading to potential errors in subsequent calculations or experiments.The impact of eccentric error extends beyond the laboratory. In manufacturing, for example, precise measurements are essential for producing components that fit together correctly. If a machine tool is not calibrated properly and suffers from eccentric error, the parts produced may not meet the required specifications. This can result in increased costs, as defective parts must be reworked or discarded, and can also affect the overall quality of the final product.Moreover, in the realm of engineering and construction, eccentric error can lead to serious structural issues. Engineers rely on accurate measurements to ensure that buildings and bridges are safe and stable. If measurements are compromised by eccentric error, it could result in miscalculations that jeopardize the integrity of the structure, potentially leading to catastrophic failures.To mitigate eccentric error, it is essential to implement rigorous calibration procedures and to ensure that all measuring instruments are used correctly. Regular maintenance and checks can help identify any misalignments or faults in the equipment, thereby reducing the likelihood of eccentric error. Additionally, training personnel on the proper use of measuring devices can further enhance accuracy and reliability.In conclusion, understanding eccentric error is vital across various fields that rely on precise measurements. Whether in a laboratory, manufacturing plant, or construction site, the implications of eccentric error can be far-reaching. By prioritizing accuracy and implementing best practices in measurement techniques, we can minimize the risks associated with eccentric error and ensure the success of our projects. The pursuit of precision is not just a technical requirement; it is a commitment to excellence that underpins the integrity of our work and the safety of our environments.

在测量和仪器领域，术语偏心误差指的是当测量仪器与被测物体未正确对齐时发生的误差。这种不对齐可能导致读数和结果不准确，这在各种应用中可能产生重大影响，从科学研究到工业过程。理解偏心误差对于确保测量的可靠性和准确性至关重要，尤其是在精度至关重要的领域。例如，考虑一个实验室的场景，科学家正在使用千分尺测量一根小杆的直径。如果千分尺的位置不正确，可能是由于轻微的倾斜或不当的角度，读数可能反映出偏心误差。这意味着所测得的测量值将无法准确表示杆的真实直径，从而导致后续计算或实验中的潜在错误。偏心误差的影响超越了实验室。在制造业中，例如，精确测量对于生产能够正确配合的组件至关重要。如果机器工具未正确校准并且存在偏心误差，则生产的零件可能不符合所需规格。这可能导致成本增加，因为缺陷零件必须返工或丢弃，也可能影响最终产品的整体质量。此外，在工程和建筑领域，偏心误差可能导致严重的结构问题。工程师依赖准确的测量来确保建筑物和桥梁的安全和稳定。如果测量因偏心误差而受到损害，可能会导致错误计算，从而危及结构的完整性，甚至可能导致灾难性故障。为了减轻偏心误差，实施严格的校准程序并确保所有测量仪器的正确使用至关重要。定期维护和检查可以帮助识别设备中的任何不对齐或故障，从而减少偏心误差的可能性。此外，对人员进行测量设备正确使用的培训可以进一步提高准确性和可靠性。总之，理解偏心误差在依赖精确测量的各个领域至关重要。无论是在实验室、制造厂还是建筑工地，偏心误差的影响都可能深远。通过优先考虑准确性并实施最佳测量技术，我们可以最大限度地降低与偏心误差相关的风险，确保我们项目的成功。追求精度不仅仅是技术要求；它是对卓越的承诺，支撑着我们工作的完整性和环境的安全。