edge irregularity

简明释义

边缘不规则性

英英释义

例句

1.During the quality control inspection, the team found several instances of edge irregularity on the manufactured parts.

在质量控制检查中，团队发现制造部件上有几个边缘不规则性的实例。

2.Manufacturing processes must be refined to reduce edge irregularity in high-precision applications.

制造过程必须得到改进，以减少高精度应用中的边缘不规则性。

3.A slight edge irregularity can lead to improper fitting of the components in assembly.

轻微的边缘不规则性可能导致组件在装配中的不当配合。

4.The engineer noticed an edge irregularity in the metal sheet that could affect its structural integrity.

工程师注意到金属板上的边缘不规则性，这可能会影响其结构完整性。

5.The designer had to adjust the dimensions to compensate for the edge irregularity found in the prototype.

设计师不得不调整尺寸，以补偿原型中发现的边缘不规则性。

作文

In the world of manufacturing and engineering, precision is key. One of the critical aspects that engineers focus on is the quality of the materials used in production. Among various factors, edge irregularity plays a significant role in determining the overall performance and durability of a product. 边缘不规则性, which refers to the deviations and imperfections found along the edges of a material, can have profound implications for both functionality and aesthetics. To understand the importance of edge irregularity, we must first consider its impact on mechanical properties. For instance, in metal fabrication, sharp edges or uneven surfaces can lead to stress concentrations. These areas become weak points within the material, making it more susceptible to fractures and failures under load. Therefore, controlling edge irregularity is crucial for ensuring that the final product can withstand operational stresses without compromising safety. Moreover, edge irregularity can also affect the assembly process of various components. When parts are designed to fit together precisely, any irregularities at the edges can hinder proper alignment and connection. This misalignment not only complicates the assembly process but may also result in gaps that affect the integrity of the final product. For example, in the automotive industry, a slight edge irregularity in a car door can lead to water leaks and increased noise levels, ultimately diminishing the quality of the vehicle. From an aesthetic perspective, edge irregularity can detract from the visual appeal of a product. Consumers often associate smooth, well-finished edges with high-quality craftsmanship. In contrast, visible imperfections can lead to negative perceptions about the overall quality of the item. This is particularly relevant in industries such as furniture design and consumer electronics, where appearance is just as important as functionality. To mitigate the effects of edge irregularity, manufacturers employ various techniques. One common approach is precision machining, which involves using advanced tools and equipment to achieve tight tolerances. By carefully controlling the cutting process, engineers can produce edges that are uniform and free from defects. Additionally, surface finishing processes such as sanding, grinding, or polishing can further reduce edge irregularity and enhance the overall quality of the product. In conclusion, understanding and controlling edge irregularity is essential for manufacturers across various industries. It impacts not only the mechanical properties and assembly processes but also the aesthetic value of products. As technology continues to advance, the ability to minimize edge irregularity will play an increasingly vital role in ensuring the production of high-quality, reliable products that meet the expectations of consumers. By prioritizing precision and attention to detail, manufacturers can enhance their reputation and competitiveness in the market.

在制造和工程的世界中，精确度是关键。工程师关注的一个重要方面是生产中使用材料的质量。在各种因素中，边缘不规则性在决定产品的整体性能和耐用性方面发挥着重要作用。边缘不规则性指的是材料边缘沿线的偏差和缺陷，这会对功能和美观产生深远的影响。要理解边缘不规则性的重要性，我们首先必须考虑它对机械性能的影响。例如，在金属加工中，锋利的边缘或不均匀的表面可能导致应力集中。这些区域成为材料中的薄弱点，使其在负载下更容易发生断裂和失效。因此，控制边缘不规则性对于确保最终产品能够承受操作压力而不影响安全至关重要。此外，边缘不规则性还会影响各种组件的组装过程。当部件设计得紧密契合时，边缘的不规则性可能会妨碍正确的对齐和连接。这种错位不仅使组装过程复杂化，还可能导致影响最终产品完整性的间隙。例如，在汽车工业中，车门的轻微边缘不规则性可能导致漏水和噪音增加，从而最终降低车辆的质量。从美学角度来看，边缘不规则性可能会影响产品的视觉吸引力。消费者通常将光滑、精致的边缘与高质量的工艺联系在一起。相反，明显的缺陷可能导致对物品整体质量的负面看法。这在家具设计和消费电子等行业尤为相关，因为外观与功能一样重要。为了减轻边缘不规则性的影响，制造商采用各种技术。一种常见的方法是精密加工，这涉及使用先进的工具和设备来实现严格的公差。通过仔细控制切割过程，工程师可以生产出均匀且无缺陷的边缘。此外，打磨、磨削或抛光等表面处理工艺可以进一步减少边缘不规则性，并增强产品的整体质量。总之，理解和控制边缘不规则性对各个行业的制造商至关重要。它不仅影响机械性能和组装过程，还影响产品的美学价值。随着技术的不断进步，减少边缘不规则性的能力将在确保生产出符合消费者期望的高质量、可靠产品方面发挥越来越重要的作用。通过优先考虑精确度和对细节的关注，制造商可以提升他们在市场上的声誉和竞争力。