transverse module

简明释义

端面模数

英英释义

例句

1.The transverse module 横向模块 in this software architecture allows for better data processing across different systems.

这个软件架构中的transverse module 横向模块允许在不同系统之间更好地处理数据。

2.The design of the vehicle includes a flexible transverse module 横向模块 that allows for easy adjustments to the seating arrangement.

该车辆的设计包括一个灵活的transverse module 横向模块，允许轻松调整座位布局。

3.Engineers are evaluating the performance of the transverse module 横向模块 under various load conditions.

工程师正在评估在各种负载条件下transverse module 横向模块的性能。

4.The new transverse module 横向模块 has improved the efficiency of the manufacturing process significantly.

新的transverse module 横向模块显著提高了制造过程的效率。

5.In our latest project, we implemented a transverse module 横向模块 to enhance the structural integrity of the bridge.

在我们的最新项目中，我们实施了一个transverse module 横向模块来增强桥梁的结构完整性。

作文

In the field of engineering and design, particularly in the context of automotive and aerospace industries, the concept of a transverse module is gaining significant attention. A transverse module refers to a structural component that is oriented perpendicular to the longitudinal axis of a vehicle or aircraft. This orientation plays a crucial role in enhancing the overall performance, safety, and efficiency of the design. The implementation of a transverse module can be seen in various applications, such as chassis design, where it contributes to the stability and rigidity of the structure.One of the primary advantages of utilizing a transverse module is its ability to distribute forces more evenly across the structure. In automotive design, for instance, the incorporation of a transverse module can help manage the impact forces during a collision, thereby improving passenger safety. By absorbing and redirecting these forces, the transverse module acts as a protective barrier, minimizing the risk of injury to occupants.Moreover, the transverse module can optimize space within the vehicle. By positioning components such as the engine or suspension system transversely, designers can create a more compact layout, which not only saves weight but also enhances fuel efficiency. For example, many modern vehicles employ a transverse module arrangement for their engines, allowing for a smaller front profile and improved aerodynamics.In addition to its structural benefits, the transverse module also facilitates easier maintenance and repairs. When components are arranged in a transverse configuration, access to critical parts becomes more straightforward, reducing the time and cost associated with servicing. This aspect is particularly important in commercial vehicles, where downtime can significantly impact productivity and profitability.The versatility of the transverse module extends beyond traditional automotive applications. In aerospace engineering, for example, the principles of a transverse module are applied to improve the aerodynamic performance of aircraft. The design of wings and fuselages often incorporates transverse elements to enhance stability and control during flight, showcasing the importance of this concept in various engineering disciplines.As technology continues to advance, the potential for innovative applications of the transverse module is expanding. With the rise of electric vehicles and autonomous driving technologies, engineers are exploring new ways to integrate transverse modules into their designs. These developments may lead to even greater efficiencies and safety features, further solidifying the relevance of the transverse module in modern engineering.In conclusion, the transverse module is a vital concept in engineering that enhances the functionality and safety of various designs, particularly in the automotive and aerospace sectors. Its ability to distribute forces effectively, optimize space, and facilitate maintenance makes it an essential consideration for engineers and designers alike. As we look to the future, the continued evolution of the transverse module will undoubtedly play a key role in shaping the next generation of vehicles and aircraft, making them safer, more efficient, and more user-friendly.

在工程和设计领域，特别是在汽车和航空航天工业中，‘transverse module’的概念正受到越来越多的关注。‘transverse module’指的是一种结构组件，其方向与车辆或飞机的纵向轴线垂直。这种取向在增强设计的整体性能、安全性和效率方面发挥着至关重要的作用。‘transverse module’的实施可以在各种应用中看到，例如底盘设计，它有助于提高结构的稳定性和刚度。利用‘transverse module’的主要优点之一是它能够更均匀地分配结构上的力。例如，在汽车设计中，采用‘transverse module’可以帮助管理碰撞过程中的冲击力，从而提高乘客的安全性。通过吸收和重新引导这些力量，‘transverse module’充当了保护屏障，最大限度地减少对乘员的伤害风险。此外，‘transverse module’还可以优化车辆内部空间。通过将发动机或悬挂系统等组件横向布置，设计师可以创建更紧凑的布局，这不仅节省了重量，还提高了燃油效率。例如，许多现代车辆采用‘transverse module’布局来安置发动机，从而实现更小的前部轮廓和改善的空气动力学性能。除了结构优势外，‘transverse module’还便于维护和修理。当组件以横向配置排列时，访问关键部件变得更加直接，从而减少了维修所需的时间和成本。这一点在商用车辆中尤为重要，因为停机时间会显著影响生产力和盈利能力。‘transverse module’的多功能性超越了传统的汽车应用。在航空航天工程中，例如，‘transverse module’的原理被应用于改善飞机的空气动力性能。机翼和机身的设计通常融入横向元素，以增强飞行中的稳定性和控制，展示了这一概念在各个工程学科中的重要性。随着技术的不断进步，‘transverse module’的创新应用潜力正在扩大。随着电动汽车和自动驾驶技术的兴起，工程师们正在探索将‘transverse module’集成到设计中的新方法。这些发展可能会导致更大的效率和安全特性，进一步巩固‘transverse module’在现代工程中的相关性。总之，‘transverse module’是工程中的一个重要概念，它增强了各种设计的功能性和安全性，特别是在汽车和航空航天领域。它有效分配力量、优化空间和促进维护的能力，使其成为工程师和设计师必须考虑的基本要素。展望未来，‘transverse module’的持续演变无疑将在塑造下一代车辆和飞机方面发挥关键作用，使它们更安全、更高效、更易于使用。