allowable draft

简明释义

允许吃水

英英释义

例句

1.During loading, it is crucial to keep the cargo weight within the allowable draft limits.

在装载过程中，保持货物重量在允许吃水的限制内至关重要。

2.In order to comply with safety regulations, the captain must monitor the allowable draft at all times.

为了遵守安全规定，船长必须时刻监控允许吃水。

3.The harbor authority provided guidelines on the allowable draft for different vessels.

港口管理局提供了不同船只的允许吃水指南。

4.The allowable draft is determined by the design specifications of the ship.

船舶的设计规格决定了允许吃水。

5.The engineer calculated the maximum allowable draft to ensure the vessel remains stable in rough seas.

工程师计算了最大允许吃水以确保船只在波涛汹涌的海面上保持稳定。

作文

In the world of engineering and design, particularly in the field of manufacturing, understanding the concept of allowable draft is crucial for ensuring the quality and functionality of products. The term allowable draft refers to the permissible deviation or tolerance that can be applied to a specific dimension or feature of a part during the production process. This concept helps engineers and designers define the limits within which a product can vary without compromising its performance or integrity.When designing a component, engineers must consider various factors such as material properties, manufacturing processes, and the intended use of the product. For instance, if a part is intended to fit with another component, the allowable draft ensures that even with slight variations in size or shape, the two parts will still function together seamlessly. This is especially important in industries like automotive or aerospace, where precision is paramount.To illustrate the importance of allowable draft, let’s consider the example of injection molding, a common manufacturing process used to create plastic parts. During this process, molten plastic is injected into a mold, and once it cools, it takes the shape of the mold. However, due to the nature of materials and the cooling process, there can be slight variations in the final dimensions of the molded part. By defining an allowable draft, manufacturers can ensure that these variations do not lead to defects or failures in the final product.Moreover, establishing allowable draft parameters can also lead to cost savings in production. If engineers set overly strict tolerances, it may result in increased production costs due to the need for more precise machining or additional quality control measures. On the other hand, if the tolerances are too lax, it could lead to parts that do not meet the required specifications, resulting in waste and rework. Therefore, finding the right balance in allowable draft is essential for optimizing both quality and cost-effectiveness in manufacturing.In addition to its applications in manufacturing, the concept of allowable draft can also be seen in fields such as architecture and construction. When designing buildings or structures, architects must account for tolerances in materials and construction methods. For example, when constructing a building, the allowable draft might refer to the acceptable deviation in the alignment of structural elements. This ensures that even if there are minor discrepancies during construction, the overall integrity and safety of the building are maintained.Ultimately, the significance of allowable draft extends beyond technical specifications; it embodies the principles of precision, efficiency, and quality assurance in engineering and design. As industries continue to evolve and embrace new technologies, the understanding and application of allowable draft will remain a vital aspect of producing reliable and high-quality products. By recognizing the importance of this concept, engineers and designers can contribute to innovations that enhance performance while minimizing costs and risks.In conclusion, the term allowable draft plays a fundamental role in various engineering disciplines, guiding the production and design processes to achieve optimal results. It is essential for ensuring that products meet their intended functions while maintaining quality standards. As we move forward in an increasingly complex manufacturing landscape, the principles surrounding allowable draft will continue to be a cornerstone of successful engineering practices.

在工程和设计领域，特别是在制造业，理解允许偏差的概念对确保产品的质量和功能至关重要。术语允许偏差指的是在生产过程中可以应用于特定尺寸或特征的允许偏差或公差。这个概念帮助工程师和设计师定义产品可以变化的范围，而不影响其性能或完整性。在设计组件时，工程师必须考虑各种因素，如材料特性、制造工艺和产品的预期用途。例如，如果一个部件是为了与另一个组件配合而设计的，允许偏差确保即使在大小或形状上有轻微变化，这两个部件仍然能够无缝地一起工作。这在汽车或航空航天等对精度要求极高的行业中尤为重要。为了说明允许偏差的重要性，我们可以考虑注塑成型的例子，这是一种常用的制造过程，用于创建塑料部件。在这个过程中，熔融塑料被注入模具中，并在冷却后形成模具的形状。然而，由于材料的性质和冷却过程，模制部件的最终尺寸可能会有轻微的变化。通过定义允许偏差，制造商可以确保这些变化不会导致最终产品的缺陷或故障。此外，建立允许偏差参数还可以在生产中节省成本。如果工程师设定过于严格的公差，可能会导致由于需要更精确的加工或额外的质量控制措施而增加生产成本。另一方面，如果公差过于宽松，可能会导致部件不符合所需规格，从而造成浪费和返工。因此，在优化制造的质量和成本效益方面找到允许偏差的正确平衡至关重要。除了在制造中的应用，允许偏差的概念也可以在建筑和施工等领域看到。当设计建筑物或结构时，建筑师必须考虑材料和施工方法的公差。例如，在建造一栋建筑时，允许偏差可能指的是结构元素对齐的可接受偏差。这确保了即使在施工过程中存在轻微的差异，建筑的整体完整性和安全性也能得到维护。最终，允许偏差的意义超越了技术规范；它体现了工程和设计中精度、效率和质量保证的原则。随着行业的不断发展和新技术的采用，对允许偏差的理解和应用将仍然是生产可靠和高质量产品的关键方面。通过认识到这一概念的重要性，工程师和设计师可以为提升性能、降低成本和风险的创新做出贡献。总之，术语允许偏差在各个工程学科中发挥着基本作用，引导生产和设计过程以实现最佳结果。它对于确保产品满足其预期功能，同时维持质量标准至关重要。随着我们在日益复杂的制造环境中前进，围绕允许偏差的原则将继续成为成功工程实践的基石。