working thickness

简明释义

开采厚度

英英释义

例句

1.To achieve optimal performance, the working thickness 工作厚度 of the coating must be consistent.

为了达到最佳性能，涂层的工作厚度 工作厚度必须保持一致。

2.In metal fabrication, the working thickness 工作厚度 can affect the strength of the final product.

在金属加工中，工作厚度 工作厚度会影响最终产品的强度。

3.The manufacturer specified the working thickness 工作厚度 of the material to ensure proper fit in the assembly.

制造商指定了材料的工作厚度 工作厚度以确保在装配中合适的配合。

4.Before cutting the wood, measure the working thickness 工作厚度 to avoid any mistakes.

在切割木材之前，测量工作厚度 工作厚度以避免任何错误。

5.The engineer provided the working thickness 工作厚度 for the insulation material used in the project.

工程师提供了项目中使用的绝缘材料的工作厚度 工作厚度。

作文

In the field of engineering and manufacturing, precise measurements are crucial for ensuring quality and functionality. One term that often comes up in these discussions is working thickness. This term refers to the effective thickness of a material that is utilized during the manufacturing process or in the final product. Understanding working thickness is essential for engineers and designers, as it directly influences the performance and durability of the materials used. For instance, when designing a component that requires a specific strength, the working thickness of the material must be calculated carefully. If the thickness is too thin, the component may not withstand the stresses it will encounter in use, leading to failure. Conversely, if the working thickness is too thick, it may add unnecessary weight and cost to the product. Therefore, finding the right balance is key.Furthermore, the working thickness can vary depending on the manufacturing process. For example, in processes like machining, the effective thickness might change due to the removal of material during cutting. In contrast, in processes such as casting or molding, the working thickness is determined by the design of the mold and the flow of the material into it. This variability necessitates a thorough understanding of how different processes affect the working thickness.Another important aspect to consider is the impact of environmental factors on working thickness. Materials can expand or contract based on temperature and humidity, which can alter their effective thickness. Engineers must take these factors into account when designing products that will be used in varying conditions. Moreover, the choice of material also plays a significant role in determining the working thickness. Different materials have unique properties, such as tensile strength, flexibility, and resistance to wear and tear, which all contribute to how they behave under stress. For instance, while metals may require a certain working thickness for structural integrity, plastics may need a different approach due to their inherent flexibility and lightweight nature. In conclusion, the concept of working thickness is vital in engineering and manufacturing. It encompasses various factors, including the intended use of the product, the manufacturing process, environmental conditions, and material properties. A thorough understanding of working thickness allows engineers to create more efficient, durable, and cost-effective products. As technology continues to advance, the importance of accurately measuring and applying working thickness will only grow, making it an essential consideration in modern engineering practices.

在工程和制造领域，精确的测量对于确保质量和功能至关重要。一个常常出现的术语是工作厚度。这个术语指的是在制造过程中或最终产品中使用的材料的有效厚度。理解工作厚度对工程师和设计师来说至关重要，因为它直接影响所用材料的性能和耐久性。例如，在设计需要特定强度的组件时，必须仔细计算材料的工作厚度。如果厚度太薄，组件可能无法承受使用过程中遇到的压力，从而导致失效。相反，如果工作厚度过厚，可能会给产品增加不必要的重量和成本。因此，找到合适的平衡点是关键。此外，工作厚度可能会因制造工艺的不同而有所变化。例如，在加工过程中，由于切削过程中去除了材料，有效厚度可能会发生变化。相比之下，在铸造或成型等工艺中，工作厚度由模具的设计和材料的流动决定。这种可变性需要深入了解不同工艺如何影响工作厚度。另一个重要方面是环境因素对工作厚度的影响。材料可能会因温度和湿度而膨胀或收缩，这可能会改变其有效厚度。工程师在设计将在不同条件下使用的产品时，必须考虑这些因素。此外，材料的选择也在确定工作厚度中起着重要作用。不同材料具有独特的属性，例如抗拉强度、柔韧性以及耐磨损能力，这些都会影响它们在压力下的表现。例如，虽然金属可能需要一定的工作厚度来保持结构完整性，但由于塑料固有的灵活性和轻质特性，可能需要不同的方法。总之，工作厚度的概念在工程和制造中至关重要。它涵盖了多种因素，包括产品的预期用途、制造工艺、环境条件和材料特性。对工作厚度的透彻理解使工程师能够创造出更高效、更耐用且更具成本效益的产品。随着技术的不断进步，准确测量和应用工作厚度的重要性只会增加，使其成为现代工程实践中的一个重要考虑因素。