critical dimension

简明释义

临界尺寸

英英释义

例句

1.The critical dimension 关键尺寸 of the component was measured to ensure it met the specifications.

对组件的关键尺寸进行了测量，以确保其符合规格。

2.Failure to adhere to the critical dimension 关键尺寸 can lead to product failure.

未能遵循关键尺寸可能导致产品故障。

3.In the design phase, it is essential to consider the critical dimension 关键尺寸 to avoid manufacturing issues.

在设计阶段，考虑关键尺寸以避免生产问题是至关重要的。

4.Adjustments were made to the critical dimension 关键尺寸 in order to improve the fit of the assembly.

为了改善组件的配合，对关键尺寸进行了调整。

5.The engineer identified the critical dimension 关键尺寸 that would affect the overall performance of the product.

工程师确定了将影响产品整体性能的关键尺寸。

作文

In the realm of engineering and design, the term critical dimension refers to a measurement that is vital to the functionality and performance of a product. Understanding the significance of critical dimension is essential for engineers, as it can greatly impact the success or failure of a project. For instance, in the manufacturing of mechanical parts, even a slight deviation from the critical dimension can lead to catastrophic failures, resulting in safety hazards and increased costs. Therefore, precise measurement and adherence to specifications are paramount.The concept of critical dimension is not limited to physical measurements; it also applies to various fields such as architecture, electronics, and even software development. In architecture, the critical dimension might refer to the height of a building or the width of a doorway, which must comply with safety regulations and functional requirements. In electronics, the critical dimension could be the size of a microchip component, where any alteration can affect the chip's performance and reliability. Similarly, in software development, a critical dimension could relate to the scalability of an application, determining how well it can manage increased loads without compromising performance.To illustrate the importance of critical dimension, consider the aerospace industry. Engineers designing aircraft must account for numerous critical dimensions, including wing span, fuselage length, and engine placement. These measurements are meticulously calculated and tested, as any error could result in flight instability or even accidents. The rigorous testing protocols ensure that all critical dimensions meet the required standards before the aircraft is certified for flight. This attention to detail is what keeps passengers safe and maintains the integrity of the aviation industry.Moreover, the identification of critical dimensions often involves collaboration among various disciplines. For example, mechanical engineers may work alongside electrical engineers to determine how the critical dimensions of a component will affect its electrical performance. This interdisciplinary approach helps to ensure that all aspects of a design are considered, leading to a more robust final product.In conclusion, the understanding and management of critical dimension are fundamental to successful engineering and design. Whether in manufacturing, architecture, electronics, or software, recognizing which dimensions are critical can mean the difference between success and failure. As industries continue to evolve and technology advances, the importance of accurately defining and adhering to critical dimensions will only grow. Engineers and designers must remain vigilant and committed to precision, as the implications of neglecting critical dimensions can be far-reaching and detrimental. Ultimately, the pursuit of excellence in engineering hinges on our ability to recognize and prioritize these critical dimensions in every project we undertake.

在工程和设计领域，术语critical dimension指的是对产品的功能和性能至关重要的测量。理解critical dimension的重要性对于工程师来说至关重要，因为它可以极大地影响项目的成功或失败。例如，在机械部件的制造中，即使是稍微偏离critical dimension也可能导致灾难性的故障，造成安全隐患和成本增加。因此，精确的测量和遵循规范至关重要。critical dimension的概念并不限于物理测量；它还适用于建筑、电子甚至软件开发等多个领域。在建筑中，critical dimension可能指的是建筑物的高度或门口的宽度，这些都必须符合安全法规和功能要求。在电子学中，critical dimension可能是微芯片组件的大小，任何改变都可能影响芯片的性能和可靠性。同样，在软件开发中，critical dimension可能与应用程序的可扩展性有关，决定了它在不影响性能的情况下如何管理增加的负载。为了说明critical dimension的重要性，可以考虑航空航天工业。设计飞机的工程师必须考虑许多critical dimensions，包括翼展、机身长度和发动机位置。这些测量经过精心计算和测试，因为任何错误都可能导致飞行不稳定甚至事故。严格的测试协议确保所有critical dimensions在飞机获得飞行认证之前都符合所需标准。这种对细节的关注是保持乘客安全和维护航空业完整性的关键。此外，识别critical dimensions通常涉及各个学科之间的合作。例如，机械工程师可能与电气工程师合作，以确定组件的critical dimensions将如何影响其电气性能。这种跨学科的方法有助于确保设计的各个方面都得到考虑，从而导致更强大的最终产品。总之，理解和管理critical dimension是成功工程和设计的基础。无论是在制造、建筑、电子还是软件领域，识别哪些维度是关键的可能意味着成功与失败之间的区别。随着行业的不断发展和技术的进步，准确定义和遵循critical dimensions的重要性只会增加。工程师和设计师必须保持警惕，并致力于精确，因为忽视critical dimensions的后果可能是深远和有害的。最终，追求卓越的工程取决于我们在每一个项目中识别和优先考虑这些critical dimensions的能力。