minimum limit of size

简明释义

最小极限尺寸

英英释义

例句

1.The manufacturer has set a minimum limit of size for the components to ensure compatibility with existing systems.

制造商设定了一个最小尺寸限制，以确保与现有系统的兼容性。

2.In the design specifications, there is a minimum limit of size for the packaging to avoid damage during shipping.

在设计规格中，包装有一个最小尺寸限制，以避免在运输过程中受损。

3.To qualify for the competition, the entries must meet the minimum limit of size set by the organizers.

为了符合比赛资格，参赛作品必须满足主办方设定的最小尺寸限制。

4.For safety reasons, the playground equipment must adhere to a minimum limit of size for children's safety.

出于安全原因，游乐设施必须遵循儿童安全的最小尺寸限制。

5.The architect specified a minimum limit of size for the windows to maximize natural light in the building.

建筑师规定了窗户的最小尺寸限制，以最大化建筑内的自然光。

作文

In the world of design and manufacturing, understanding dimensions is crucial. One important concept that often arises is the minimum limit of size, which refers to the smallest allowable dimension for a particular object or component. This term plays a significant role in ensuring that products meet functional requirements and can be produced efficiently. For instance, when designing a mechanical part, engineers must consider the minimum limit of size to ensure that the part can withstand operational stresses without failing. If a part is made too small, it may not fit with other components, leading to assembly issues or even complete system failure.The minimum limit of size is not only relevant in engineering but also in various fields such as architecture, textiles, and electronics. In architecture, the minimum limit of size can dictate the smallest dimensions for structural elements, ensuring safety and stability. For example, when constructing a building, architects must ensure that beams and columns meet specific size requirements to support the weight of the structure. Similarly, in the textile industry, the minimum limit of size can refer to the smallest size of fabric pieces that can be cut without compromising the garment's integrity.Moreover, the minimum limit of size is essential in quality control processes. Manufacturers often set stringent standards that include these minimum dimensions to maintain product consistency and reliability. If a product falls below the minimum limit of size, it may be rejected during quality inspections, leading to wasted materials and increased production costs. Therefore, understanding and adhering to these limits is vital for maintaining a competitive edge in the market.In the realm of electronics, the minimum limit of size becomes increasingly critical as devices become smaller and more compact. The trend toward miniaturization means that components must be designed to fit within very tight spaces while still performing their intended functions. Engineers must carefully calculate the minimum limit of size for circuit boards and other electronic components to ensure they can be integrated into smaller devices without sacrificing performance.Additionally, the minimum limit of size can have implications for environmental sustainability. By setting clear size limits, manufacturers can reduce waste and optimize material usage. For example, in packaging design, establishing a minimum limit of size can help companies create more efficient packaging solutions that use fewer resources while still protecting the product inside. This approach not only benefits the company’s bottom line but also contributes to broader environmental goals.In conclusion, the concept of minimum limit of size is integral across various industries, impacting design, manufacturing, quality control, and sustainability efforts. By understanding this term and its implications, professionals can make informed decisions that enhance product functionality, ensure safety, and promote environmental responsibility. As industries continue to evolve and innovate, the importance of adhering to the minimum limit of size will remain a fundamental aspect of successful design and manufacturing practices.

在设计和制造的世界中，理解尺寸是至关重要的。一个常常出现的重要概念是最小尺寸限制，它指的是特定物体或组件允许的最小尺寸。这一术语在确保产品满足功能要求并能够高效生产方面发挥着重要作用。例如，在设计机械零件时，工程师必须考虑最小尺寸限制，以确保零件能够承受操作压力而不发生故障。如果零件制作得太小，可能无法与其他组件匹配，从而导致组装问题甚至整个系统的故障。最小尺寸限制不仅在工程中相关，在建筑、纺织和电子等多个领域也同样重要。在建筑中，最小尺寸限制可以决定结构元素的最小尺寸，确保安全和稳定性。例如，在建造一座建筑时，建筑师必须确保梁和柱符合特定的尺寸要求，以支撑结构的重量。同样，在纺织行业中，最小尺寸限制可以指可以裁剪的最小布料尺寸，而不影响服装的完整性。此外，最小尺寸限制在质量控制过程中至关重要。制造商通常设定严格的标准，包括这些最小尺寸，以保持产品的一致性和可靠性。如果产品低于最小尺寸限制，可能会在质量检查中被拒绝，从而导致材料浪费和生产成本增加。因此，理解和遵守这些限制对于在市场上保持竞争优势至关重要。在电子领域，最小尺寸限制变得越来越重要，因为设备变得越来越小和紧凑。微型化的趋势意味着组件必须设计得能适应非常狭窄的空间，同时仍能执行其预期功能。工程师必须仔细计算电路板和其他电子组件的最小尺寸限制，以确保它们能够集成到更小的设备中，而不会牺牲性能。此外，最小尺寸限制对环境可持续性也有影响。通过设定明确的尺寸限制，制造商可以减少废物并优化材料使用。例如，在包装设计中，建立最小尺寸限制可以帮助公司创建更有效的包装解决方案，使用更少的资源，同时保护内部产品。这种方法不仅有利于公司的利润，还促进了更广泛的环境目标。总之，最小尺寸限制的概念在各个行业中都是不可或缺的，影响着设计、制造、质量控制和可持续发展努力。通过理解这一术语及其影响，专业人士可以做出明智的决策，从而增强产品功能，确保安全，并促进环境责任。随着行业的不断发展和创新，遵循最小尺寸限制的重要性将始终是成功设计和制造实践的基本方面。