dimensional precision

简明释义

尺寸精度

英英释义

例句

1.The quality control team measures dimensional precision to ensure that each part meets the specifications.

质量控制团队测量尺寸精度以确保每个部件符合规范。

2.The software was designed to help manufacturers achieve better dimensional precision in their products.

该软件旨在帮助制造商在其产品中实现更好的尺寸精度。

3.The engineer emphasized the importance of dimensional precision in the design of the new aircraft components.

工程师强调了在新飞机部件设计中尺寸精度的重要性。

4.In 3D printing, achieving dimensional precision is crucial for the final product's fit and functionality.

在3D打印中，实现尺寸精度对于最终产品的适配和功能至关重要。

5.For this project, we need to maintain a high level of dimensional precision throughout the manufacturing process.

对于这个项目，我们需要在整个制造过程中保持高水平的尺寸精度。

作文

In today's rapidly evolving technological landscape, the importance of dimensional precision cannot be overstated. This term refers to the accuracy of measurements in three-dimensional space, which is crucial in various fields such as manufacturing, engineering, and design. Without dimensional precision (维度精度), products may not fit together properly, leading to inefficiencies and increased costs. For instance, in the automotive industry, even a slight deviation in the dimensions of a car part can lead to significant performance issues or safety hazards. Therefore, maintaining high standards of dimensional precision is essential for ensuring the reliability and functionality of complex systems.Manufacturers often employ advanced technologies to achieve dimensional precision. Computer Numerical Control (CNC) machines, for example, are designed to operate with extreme accuracy, allowing for the production of intricate components with minimal human intervention. These machines rely on precise programming and calibration to ensure that every cut, drill, or mill is executed with exactitude. The result is a product that meets stringent quality standards, which is particularly important in industries where safety and performance are paramount.Moreover, dimensional precision plays a vital role in the field of aerospace engineering. Aircraft components must adhere to incredibly tight tolerances to ensure that they function correctly under the stresses of flight. Engineers use sophisticated measurement tools, such as laser scanning and coordinate measuring machines (CMM), to verify that each component meets the required specifications. Any discrepancies can lead to catastrophic failures, making dimensional precision (维度精度) a non-negotiable aspect of aircraft design and manufacturing.In addition to its applications in manufacturing and engineering, dimensional precision is also critical in the realm of 3D printing. As this technology continues to advance, the ability to produce complex geometries with high dimensional precision is becoming increasingly attainable. However, achieving this level of accuracy requires not only sophisticated printers but also a deep understanding of the materials being used. Variations in temperature, humidity, and material properties can all affect the final product's dimensions, so careful control of the printing environment is necessary.Furthermore, the significance of dimensional precision extends beyond industrial applications. In the realm of art and architecture, precise measurements can make the difference between a visually stunning structure and one that is aesthetically unpleasing. Architects and artists alike must consider dimensional precision (维度精度) when designing their works, as even minor miscalculations can alter the intended visual impact.In conclusion, dimensional precision is a fundamental concept that permeates various sectors, from manufacturing to art. Its implications are far-reaching, affecting not only the efficiency and safety of products but also the aesthetic value of creative works. As technology continues to evolve, the pursuit of higher levels of dimensional precision will undoubtedly remain a priority for professionals across disciplines. Emphasizing the importance of this concept will help foster a culture of quality and excellence in all areas of design and production.

在当今快速发展的技术环境中，维度精度的重要性不容小觑。这个术语指的是三维空间中测量的准确性，这在制造、工程和设计等多个领域至关重要。如果没有维度精度，产品可能无法正确配合，从而导致效率低下和成本增加。例如，在汽车工业中，即使是零部件尺寸的轻微偏差也可能导致显著的性能问题或安全隐患。因此，保持高标准的维度精度对于确保复杂系统的可靠性和功能性至关重要。制造商通常采用先进的技术来实现维度精度。计算机数控（CNC）机床就是一个例子，它们旨在以极高的准确性操作，从而允许生产复杂的组件，最小化人工干预。这些机器依赖于精确的编程和校准，以确保每一次切割、钻孔或铣削都能准确执行。最终的结果是符合严格质量标准的产品，这在安全和性能至关重要的行业中尤其重要。此外，维度精度在航空航天工程领域也发挥着至关重要的作用。飞机部件必须遵循极其严格的公差，以确保它们在飞行压力下正常工作。工程师使用激光扫描和坐标测量机（CMM）等先进测量工具来验证每个组件是否符合所需规格。任何差异都可能导致灾难性的故障，使得维度精度成为飞机设计和制造不可妥协的方面。除了在制造和工程中的应用外，维度精度在3D打印领域也至关重要。随着这项技术的不断进步，以高维度精度生产复杂几何形状变得越来越可行。然而，要达到这种准确度，不仅需要复杂的打印机，还需要对所用材料有深入的了解。温度、湿度和材料特性等变化都可能影响最终产品的尺寸，因此控制打印环境非常必要。此外，维度精度的重要性不仅限于工业应用。在艺术和建筑领域，精确的测量可以决定一座结构的视觉震撼力与否。建筑师和艺术家在设计作品时都必须考虑维度精度，因为即使是轻微的计算错误也会改变预期的视觉效果。总之，维度精度是一个基本概念，渗透到多个行业，从制造到艺术。它的影响深远，不仅影响产品的效率和安全性，还影响创作作品的美学价值。随着技术的不断发展，追求更高水平的维度精度无疑将继续成为各个学科专业人士的优先事项。强调这一概念的重要性将有助于在所有设计和生产领域培养质量和卓越的文化。