front end frame

简明释义

端框架

英英释义

The front end frame refers to the structural component of a vehicle that supports the front suspension and houses various elements such as the engine and radiator.

前端框架指的是车辆的结构部件,支撑前悬挂并容纳诸如发动机和散热器等各种元件。

In web development, a front end frame can also refer to a framework or library that facilitates the design and implementation of the user interface of a website or application.

在网页开发中,前端框架也可以指一个框架或库,用于简化网站或应用程序用户界面的设计和实现。

例句

1.The front end frame allows for faster development and easier maintenance of web applications.

前端框架允许更快的开发和更简单的网页应用维护。

2.Using a robust front end frame can greatly enhance the performance of web applications.

使用一个强大的前端框架可以大大提高网页应用的性能。

3.She learned how to customize the front end frame to better suit her project requirements.

她学会了如何定制前端框架以更好地满足项目需求。

4.The developer adjusted the front end frame to improve the user interface design.

开发者调整了前端框架以改善用户界面设计。

5.Many popular websites are built on a specific front end frame that supports dynamic content.

许多流行的网站是建立在特定的前端框架上,以支持动态内容。

作文

In the world of automotive design, various components play a crucial role in ensuring the safety and performance of vehicles. One of these essential components is the front end frame, which serves as a vital structural element in the vehicle's architecture. The front end frame is the part of the vehicle that provides support for the front suspension, engine, and other critical systems, making it a key player in the overall functionality of the car.The design of the front end frame is not just about aesthetics; it is fundamentally about safety. In the event of a collision, the front end frame absorbs impact energy, protecting the occupants of the vehicle. Manufacturers invest significant resources into engineering these frames to ensure they meet stringent safety standards. For instance, modern vehicles often undergo rigorous crash testing to evaluate how well the front end frame performs under stress. This testing helps engineers refine their designs, ensuring that the frame can withstand various types of impacts while minimizing damage to the cabin area.Moreover, the front end frame contributes to the vehicle's handling and stability. A well-designed frame enhances the overall rigidity of the vehicle, allowing for better control during high-speed maneuvers and cornering. This is particularly important for sports cars, where performance is paramount. Engineers must balance the weight of the front end frame with its strength, as a lighter frame can improve speed and fuel efficiency without compromising safety.The materials used in constructing the front end frame have also evolved over the years. Traditionally, steel was the primary material due to its strength and durability. However, with advancements in technology, manufacturers are now incorporating lightweight materials such as aluminum and composite materials. These innovations allow for the creation of frames that are both strong and lightweight, contributing to improved fuel efficiency and performance.In addition to safety and performance, the front end frame also plays a role in the vehicle's design and style. It serves as a foundation for the front fascia, which includes the grille, headlights, and bumper. Designers often consider how the front end frame will integrate with these elements to create a cohesive look that appeals to consumers. A visually appealing front end frame can significantly influence a buyer's decision, making it an important consideration for manufacturers.In conclusion, the front end frame is a multifaceted component that is integral to the design, safety, and performance of modern vehicles. Its role extends beyond mere structural support, influencing everything from crash safety to handling dynamics and aesthetic appeal. As automotive technology continues to evolve, the design and materials used for the front end frame will likely see further innovation, enhancing the driving experience for consumers around the world. Understanding the significance of the front end frame allows us to appreciate the complexities involved in automotive engineering and the relentless pursuit of safety and performance in vehicle design.

在汽车设计的世界中,各种组件在确保车辆的安全性和性能方面发挥着至关重要的作用。其中一个基本组件是前端框架,它作为车辆结构中的重要支撑元素。前端框架是车辆的一部分,为前悬挂、发动机和其他关键系统提供支持,使其成为汽车整体功能中的关键角色。前端框架的设计不仅仅关乎美观;它根本上关乎安全。在发生碰撞的情况下,前端框架吸收冲击能量,保护车辆的乘员。制造商在工程这些框架上投入了大量资源,以确保它们符合严格的安全标准。例如,现代车辆通常会经过严格的碰撞测试,以评估前端框架在压力下的表现。这种测试帮助工程师完善他们的设计,确保框架能够承受各种类型的冲击,同时最小化对驾驶舱区域的损害。此外,前端框架还对车辆的操控性和稳定性产生影响。设计良好的框架增强了车辆的整体刚性,使其在高速操控和转弯时能够更好地控制。这对于跑车尤其重要,因为性能至关重要。工程师必须在前端框架的重量与强度之间找到平衡,因为更轻的框架可以提高速度和燃油效率,而不牺牲安全性。构建前端框架所使用的材料也随着时间而演变。传统上,钢材是主要材料,因为它的强度和耐用性。然而,随着技术的进步,制造商现在开始采用铝和复合材料等轻质材料。这些创新使得可以创建既强大又轻便的框架,从而提高燃油效率和性能。除了安全性和性能,前端框架还在车辆的设计和风格中发挥作用。它为前脸提供基础,包括格栅、前灯和保险杠。设计师通常会考虑前端框架如何与这些元素集成,以创造出吸引消费者的整体外观。一个视觉上吸引人的前端框架可以显著影响买家的决策,使其成为制造商的重要考虑因素。总之,前端框架是现代车辆设计中不可或缺的多面组件。它的作用超越了单纯的结构支撑,影响着从碰撞安全到操控动态以及美学吸引力的方方面面。随着汽车技术的不断发展,前端框架的设计和材料可能会进一步创新,提升全球消费者的驾驶体验。理解前端框架的重要性使我们能够欣赏汽车工程中的复杂性,以及在车辆设计中对安全性和性能的不懈追求。