injected holes
简明释义
注入的空穴
英英释义
Injected holes refer to openings or voids that are created by the process of injecting a substance, typically in manufacturing or construction contexts. | 注入孔指的是通过注入某种物质的过程而形成的开口或空隙,通常在制造或建筑环境中使用。 |
例句
1.In the manufacturing process, the injected holes 注入孔 allow for better distribution of materials.
在制造过程中,injected holes 注入孔可实现更好的材料分布。
2.The technician used a special tool to seal the injected holes 注入孔 after completing the installation.
技术员在完成安装后使用特殊工具封闭了injected holes 注入孔。
3.During the inspection, we found that some of the injected holes 注入孔 were not properly filled.
在检查过程中,我们发现一些injected holes 注入孔没有正确填充。
4.The engineer examined the structure for any signs of weakness, especially around the injected holes 注入孔 that had been created during the repair.
工程师检查了结构是否有任何弱点的迹象,尤其是在修复过程中创建的injected holes 注入孔周围。
5.The design called for multiple injected holes 注入孔 to enhance the airflow within the system.
设计要求多个injected holes 注入孔以增强系统内的气流。
作文
In the world of engineering and manufacturing, precision is paramount. One aspect that often goes unnoticed is the concept of injected holes, which refers to holes created through the injection molding process. This technique allows for the creation of complex shapes and designs that would be difficult or impossible to achieve with traditional machining methods. Understanding how injected holes work can greatly enhance our appreciation of modern manufacturing processes.Injection molding is a process that involves injecting molten material into a mold to create a specific shape. This method is widely used in the production of plastic components, but it can also be applied to metals and other materials. The creation of injected holes is an essential part of this process, as it enables the design of lightweight structures while maintaining strength and integrity.One of the primary advantages of using injected holes in manufacturing is the reduction of weight in products. By strategically placing these holes in a component, engineers can minimize the amount of material used without sacrificing performance. This is particularly important in industries such as aerospace and automotive, where every gram counts. For example, an airplane wing designed with injected holes can significantly reduce its overall weight, leading to better fuel efficiency and performance.Moreover, injected holes can also facilitate the assembly process. Components with pre-designed holes allow for easier alignment and fastening during assembly. This can lead to reduced labor costs and shorter production times, making the entire manufacturing process more efficient. In addition, the use of injected holes can improve airflow and reduce heat buildup in certain applications, such as in electronics and automotive parts, where cooling is a critical factor.However, designing components with injected holes requires careful consideration. Engineers must take into account factors such as the size, shape, and placement of the holes to ensure they do not compromise the structural integrity of the part. Finite element analysis and computer-aided design (CAD) software are often employed to simulate the effects of injected holes on a component's performance before moving to production.In conclusion, the concept of injected holes plays a crucial role in modern manufacturing. It offers numerous benefits, including weight reduction, improved assembly efficiency, and enhanced performance in various applications. As technology continues to advance, the use of injected holes is likely to become even more prevalent, paving the way for innovative designs and products that push the boundaries of what is possible in engineering. Understanding and mastering the principles behind injected holes will be essential for future engineers and manufacturers looking to create cutting-edge solutions in an increasingly competitive landscape.
在工程和制造的世界中,精确性至关重要。一个常常被忽视的方面是“注入孔”的概念,它指的是通过注射成型过程创建的孔。这种技术允许创建复杂的形状和设计,而这些在传统的机械加工方法中是困难或不可能实现的。理解“注入孔”的工作原理可以大大增强我们对现代制造过程的欣赏。注射成型是一种将熔融材料注入模具以创建特定形状的过程。这种方法广泛用于塑料组件的生产,但也可以应用于金属和其他材料。“注入孔”的创建是这个过程的重要组成部分,因为它使得设计轻量化结构成为可能,同时保持强度和完整性。使用“注入孔”在制造中的主要优点之一是产品重量的减少。通过在组件中战略性地放置这些孔,工程师可以在不牺牲性能的情况下最小化所用材料的数量。这在航空航天和汽车等行业尤为重要,因为每克都很重要。例如,设计有“注入孔”的飞机机翼可以显著减少其整体重量,从而提高燃油效率和性能。此外,“注入孔”还可以促进组装过程。具有预设计孔的组件在组装过程中允许更容易的对齐和固定。这可以降低人工成本并缩短生产时间,使整个制造过程更加高效。此外,在某些应用中,例如电子产品和汽车零件,使用“注入孔”可以改善气流并减少热量积聚,在这些应用中,冷却是一个关键因素。然而,设计带有“注入孔”的组件需要仔细考虑。工程师必须考虑孔的大小、形状和位置,以确保它们不会妨碍部件的结构完整性。有限元分析和计算机辅助设计(CAD)软件常被用于在生产前模拟“注入孔”对组件性能的影响。总之,“注入孔”的概念在现代制造中发挥着至关重要的作用。它提供了众多好处,包括减轻重量、提高组装效率以及在各种应用中增强性能。随着技术的不断进步,“注入孔”的使用可能会变得更加普遍,为推动工程领域创新设计和产品的界限铺平道路。理解和掌握“注入孔”背后的原则将对未来的工程师和制造商至关重要,他们希望在日益竞争的环境中创造尖端解决方案。
相关单词
