shell lug

简明释义

外板上短角材

英英释义

例句

1.During the assembly process, we need to align the shell lug 壳体凸耳 with the mainframe.

在组装过程中，我们需要将shell lug 壳体凸耳与主框架对齐。

2.After replacing the old part, make sure the shell lug 壳体凸耳 is properly fitted.

更换旧零件后，请确保shell lug 壳体凸耳正确安装。

3.The engineer pointed out that the shell lug 壳体凸耳 was damaged and needed immediate repair.

工程师指出shell lug 壳体凸耳损坏，需要立即修理。

4.The technician examined the shell lug 壳体凸耳 to ensure it was securely attached to the machine.

技术人员检查了shell lug 壳体凸耳，以确保它牢固地连接到机器上。

5.The shell lug 壳体凸耳 plays a crucial role in maintaining the structural integrity of the device.

该shell lug 壳体凸耳在维持设备的结构完整性方面发挥着至关重要的作用。

作文

In the world of engineering and manufacturing, precision is key. One of the lesser-known components that plays a critical role in various mechanical systems is the shell lug. A shell lug is essentially a protrusion or attachment point found on the outer surface of a shell or casing, often used for securing or connecting different parts of an assembly. This component may seem insignificant at first glance, but its importance cannot be overstated. To understand the significance of the shell lug, we must first consider its applications. In aerospace engineering, for example, shell lugs are commonly used to attach fuel tanks to the fuselage of an aircraft. The structural integrity of these connections is vital for safety and performance. A failure in this area could lead to catastrophic results, which is why engineers must pay close attention to the design and manufacturing of shell lugs.Moreover, shell lugs are also prevalent in automotive applications. They are used in various parts of a vehicle, including the chassis and body panels. The reliability of these lugs ensures that components remain securely fastened during operation, especially under the stress of driving conditions. Any failure in the shell lug could potentially compromise the entire structure of the vehicle, highlighting the need for rigorous testing and quality control.The design of a shell lug can vary significantly depending on its intended use. Some may be designed for high-load applications, requiring robust materials and precise engineering to withstand forces exerted during operation. Others may be lighter and more streamlined for applications where weight savings are crucial, such as in aerospace or high-performance sports cars. Regardless of the specific design, the shell lug must meet strict standards to ensure it performs effectively.In addition to their mechanical functions, shell lugs can also play a role in aesthetic design. In consumer products, for instance, the visibility and styling of shell lugs can influence the overall look and feel of the product. Designers often have to balance functionality with aesthetics, ensuring that the shell lug not only serves its purpose but also complements the product's design.As technology advances, the methods of manufacturing shell lugs are also evolving. Traditional machining processes are being supplemented by modern techniques such as additive manufacturing, which allows for greater design flexibility and complexity. This innovation opens up new possibilities for the design of shell lugs, enabling engineers to create more efficient and effective solutions for various applications.In conclusion, while the shell lug may not be the most glamorous component in engineering, its importance cannot be underestimated. It serves as a critical connection point in many applications, ensuring safety, reliability, and performance. As industries continue to evolve, so too will the designs and applications of shell lugs, further solidifying their place in the world of engineering and manufacturing.

在工程和制造的世界中，精确是关键。一个不太为人所知的组件在各种机械系统中发挥着至关重要的作用，那就是壳体耳。壳体耳本质上是一个突起或连接点，位于壳体或外壳的外表面上，通常用于固定或连接组件的不同部分。这个组件乍一看似乎微不足道，但其重要性无法被低估。要理解壳体耳的重要性，我们必须首先考虑它的应用。例如，在航空航天工程中，壳体耳通常用于将燃料箱固定在飞机机身上。这些连接的结构完整性对于安全和性能至关重要。在这一领域的任何失效都可能导致灾难性的后果，这就是为什么工程师必须密切关注壳体耳的设计和制造。此外，壳体耳在汽车应用中也很常见。它们用于车辆的各种部件，包括底盘和车身面板。这些耳朵的可靠性确保了组件在操作过程中保持牢固固定，特别是在驾驶条件下承受压力时。壳体耳的任何失效都可能危及整个车辆的结构，突显出严格测试和质量控制的必要性。壳体耳的设计可能会因其预期用途而有所不同。有些可能设计用于高负荷应用，需要坚固的材料和精确的工程来承受操作期间施加的力量。其他耳朵可能更轻且流线型，适用于需要节省重量的应用，例如航空航天或高性能运动汽车。无论具体设计如何，壳体耳都必须符合严格的标准，以确保其有效运行。除了机械功能外，壳体耳在美学设计中也可以发挥作用。在消费产品中，例如，壳体耳的可见性和造型会影响产品的整体外观和感觉。设计师往往必须在功能性和美学之间取得平衡，确保壳体耳不仅能发挥作用，还能与产品的设计相辅相成。随着技术的进步，制造壳体耳的方法也在不断发展。传统的加工工艺正被现代技术如增材制造所补充，这使得设计灵活性和复杂性更大。这种创新为壳体耳的设计开辟了新的可能性，使工程师能够为各种应用创造更高效、更有效的解决方案。总之，尽管壳体耳可能不是工程中最引人注目的组件，但其重要性不容小觑。它作为许多应用中的关键连接点，确保安全、可靠和高性能。随着行业的不断发展，壳体耳的设计和应用也将不断演变，进一步巩固其在工程和制造世界中的地位。