final diameter

简明释义

回旋终径

英英释义

例句

1.The engineer calculated the final diameter of the pipe to ensure it meets safety standards.

工程师计算了管道的最终直径以确保其符合安全标准。

2.Before production begins, we need to finalize the final diameter of the component.

在生产开始之前，我们需要确定组件的最终直径。

3.After several adjustments, the final diameter of the metal rod was confirmed to be 10 mm.

经过几次调整，金属棒的最终直径确认是10毫米。

4.The product design requires a precise final diameter for optimal performance.

产品设计需要一个精确的最终直径以达到最佳性能。

5.The final diameter of the wheel is crucial for the vehicle's handling characteristics.

轮子的最终直径对车辆的操控特性至关重要。

作文

In the world of engineering and manufacturing, precision is paramount. One critical aspect of ensuring that components fit together seamlessly is understanding the concept of the final diameter. The final diameter refers to the ultimate measurement of a cylindrical object after all machining processes have been completed. This measurement is crucial for various reasons, including ensuring proper assembly, maintaining structural integrity, and achieving desired performance characteristics. When designing a component, engineers must consider several factors that influence the final diameter. These include the material properties, the intended use of the component, and the tolerances required for assembly. For instance, if a part is too large or too small, it may not fit with other components, leading to potential failure in the system. Therefore, calculating the final diameter accurately is essential in the design phase.Moreover, the manufacturing process can also affect the final diameter. Techniques such as turning, milling, and grinding can introduce variations in size due to tool wear, thermal expansion, and other factors. To mitigate these issues, manufacturers often implement strict quality control measures, including measuring the final diameter at various stages of production. This ensures that any deviations from the specified dimensions can be identified and corrected before the product reaches the final assembly stage.In addition to its importance in manufacturing, the final diameter plays a significant role in industries such as aerospace, automotive, and construction. For example, in aerospace engineering, components must adhere to stringent specifications to ensure safety and reliability. A slight deviation in the final diameter of a critical part could lead to catastrophic failures, making it imperative for engineers to monitor this measurement closely.Furthermore, the final diameter can also influence the performance of mechanical systems. For example, in rotating machinery, the final diameter of shafts and bearings can impact the efficiency and smoothness of operation. Engineers must take into account factors such as friction, load distribution, and heat generation when determining the optimal final diameter for these components.In conclusion, the final diameter is a vital measurement in engineering and manufacturing that affects the functionality and reliability of components. By understanding its significance and the factors that influence it, engineers can design and produce high-quality products that meet the demands of various industries. Whether in aerospace, automotive, or any other field, the attention to detail regarding the final diameter is what separates successful projects from those that fail to meet expectations. As technology continues to advance, the methods for measuring and controlling the final diameter will also evolve, leading to even greater precision and efficiency in manufacturing processes.

在工程和制造的世界中，精确性至关重要。确保组件无缝配合的一个关键方面是理解“最终直径”的概念。“最终直径”指的是在所有加工过程完成后，圆柱形物体的最终测量值。这个测量对于多个原因至关重要，包括确保正确的组装、维护结构完整性和实现所需的性能特征。在设计组件时，工程师必须考虑影响“最终直径”的几个因素。这些因素包括材料特性、组件的预期用途以及组装所需的公差。例如，如果一个部件过大或过小，它可能无法与其他组件配合，从而导致系统潜在故障。因此，在设计阶段准确计算“最终直径”是至关重要的。此外，制造过程也会影响“最终直径”。车削、铣削和磨削等技术可能由于工具磨损、热膨胀和其他因素引入尺寸变化。为了减轻这些问题，制造商通常实施严格的质量控制措施，包括在生产的各个阶段测量“最终直径”。这确保可以在产品达到最终组装阶段之前识别和纠正任何偏差。除了在制造中的重要性外，“最终直径”在航空航天、汽车和建筑等行业也发挥着重要作用。例如，在航空航天工程中，组件必须遵循严格的规格，以确保安全和可靠性。关键部件“最终直径”的轻微偏差可能导致灾难性故障，因此工程师必须密切监控这一测量。此外，“最终直径”还可以影响机械系统的性能。例如，在旋转机械中，轴和轴承的“最终直径”会影响效率和平稳运行。在确定这些组件的最佳“最终直径”时，工程师必须考虑摩擦、负载分布和热生成等因素。总之，“最终直径”是工程和制造中的一个重要测量，影响组件的功能和可靠性。通过理解其重要性及其影响因素，工程师可以设计和生产出满足各行业需求的高质量产品。无论是在航空航天、汽车还是其他领域，对“最终直径”的细致关注是成功项目与未能达到预期之间的区别。随着技术的不断进步，测量和控制“最终直径”的方法也将不断演变，从而在制造过程中实现更高的精度和效率。