engineering metrology

简明释义

工程计量学

英英释义

例句

1.In the field of robotics, engineering metrology 工程计量学 is essential for calibrating sensors and ensuring accurate movement.

在机器人领域，工程计量学 工程计量学 对于校准传感器和确保准确移动至关重要。

2.Quality control teams use engineering metrology 工程计量学 tools to measure the dimensions of products before they are shipped.

质量控制团队使用工程计量学 工程计量学 工具在产品发货前测量其尺寸。

3.The accuracy of our production line relies heavily on engineering metrology 工程计量学 to ensure every component is manufactured to precise specifications.

我们生产线的准确性在很大程度上依赖于工程计量学 工程计量学，以确保每个组件都按照精确的规格制造。

4.The aerospace industry heavily depends on engineering metrology 工程计量学 to ensure safety and performance of aircraft.

航空航天行业在很大程度上依赖于工程计量学 工程计量学 来确保飞机的安全性和性能。

5.Understanding engineering metrology 工程计量学 is crucial for engineers who design precision instruments.

理解工程计量学 工程计量学 对于设计精密仪器的工程师至关重要。

作文

In the modern world, precision and accuracy are paramount in various fields, especially in engineering. One of the critical areas that ensure these qualities is engineering metrology. This discipline focuses on the science of measurement and its application in engineering processes. Understanding engineering metrology is essential for engineers and technicians as it provides the foundation for quality control, process optimization, and product development.The term engineering metrology refers to the techniques and tools used to measure physical quantities such as length, mass, temperature, and time with high precision. It encompasses a wide range of activities, including the calibration of measuring instruments, the establishment of measurement standards, and the implementation of measurement systems in manufacturing processes. Without accurate measurements, engineers cannot design or produce components that meet the required specifications, leading to potential failures or safety hazards.One of the primary goals of engineering metrology is to ensure that measurements are consistent and reliable. This is achieved through the use of standardized procedures and equipment. For instance, the International Organization for Standardization (ISO) sets guidelines for measurement practices that are adopted worldwide. By adhering to these standards, engineers can ensure that their measurements are comparable across different contexts and applications.Moreover, engineering metrology plays a crucial role in quality assurance. In manufacturing, products are often subjected to rigorous testing to ensure they meet specific tolerances. Measurement tools such as calipers, micrometers, and coordinate measuring machines (CMMs) are utilized to verify that components are manufactured within the desired specifications. If measurements indicate deviations from these specifications, corrective actions can be taken to address the issues before products reach the market.Another significant aspect of engineering metrology is its contribution to research and development. Engineers and scientists rely on precise measurements to test theories, validate designs, and improve existing technologies. For example, in the aerospace industry, even the slightest error in measurement can lead to catastrophic failures. Therefore, rigorous metrological practices are essential to ensure the safety and reliability of aircraft and spacecraft.Furthermore, the advancement of technology has greatly impacted engineering metrology. With the introduction of digital measuring instruments and software, the accuracy and efficiency of measurements have significantly improved. Technologies such as laser scanning and 3D printing require advanced metrological techniques to ensure that the final products meet the intended design specifications. As industries continue to evolve, the demand for skilled professionals in engineering metrology will only increase.In conclusion, engineering metrology is an indispensable aspect of modern engineering that ensures precision, quality, and safety in various applications. By understanding and applying the principles of engineering metrology, engineers can enhance their work's effectiveness and contribute to the advancement of technology. As we move forward, the importance of accurate measurement will continue to grow, making engineering metrology a vital field of study and practice in the engineering domain.

在现代社会，精确性和准确性在各个领域都是至关重要的，尤其是在工程领域。确保这些品质的关键领域之一就是工程计量学。这个学科专注于测量科学及其在工程过程中的应用。理解工程计量学对于工程师和技术人员来说至关重要，因为它为质量控制、过程优化和产品开发提供了基础。术语工程计量学指的是用于高精度测量物理量（如长度、质量、温度和时间）的技术和工具。它涵盖了一系列活动，包括测量仪器的校准、测量标准的建立以及在制造过程中实施测量系统。如果没有准确的测量，工程师就无法设计或生产符合要求规格的组件，从而可能导致故障或安全隐患。工程计量学的主要目标之一是确保测量的一致性和可靠性。这是通过使用标准化程序和设备来实现的。例如，国际标准化组织（ISO）制定了全球采用的测量实践指南。通过遵循这些标准，工程师可以确保他们的测量在不同的上下文和应用中具有可比性。此外，工程计量学在质量保证中也发挥着至关重要的作用。在制造中，产品通常会经过严格测试，以确保其符合特定公差。测量工具如卡尺、千分尺和坐标测量机（CMM）被用来验证组件是否在所需规格内制造。如果测量结果显示偏离这些规格，可以采取纠正措施，以在产品推向市场之前解决问题。工程计量学的另一个重要方面是其对研发的贡献。工程师和科学家依赖精确的测量来测试理论、验证设计和改进现有技术。例如，在航空航天工业中，即使是最轻微的测量误差也可能导致灾难性的故障。因此，严格的计量实践对于确保飞机和航天器的安全性和可靠性至关重要。此外，技术的进步极大地影响了工程计量学。随着数字测量仪器和软件的引入，测量的准确性和效率显著提高。激光扫描和3D打印等技术需要先进的计量技术，以确保最终产品符合预期设计规格。随着行业的不断发展，对工程计量学专业人才的需求只会增加。总之，工程计量学是现代工程中不可或缺的一个方面，它确保了各个应用中的精确性、质量和安全性。通过理解和应用工程计量学的原则，工程师可以提高工作效果，并为技术的进步做出贡献。随着我们向前发展，准确测量的重要性将继续增长，使得工程计量学成为工程领域学习和实践的重要领域。