trussed system

简明释义

桁架形体系

英英释义

例句

1.Engineers often use a trussed system in bridges to distribute weight evenly across the structure.

工程师们常常在桥梁中使用支架系统，以均匀分配结构的重量。

2.The architect designed a building with a trussed system to enhance its structural integrity.

建筑师设计了一座采用支架系统的建筑，以增强其结构完整性。

3.The roof of the gymnasium was supported by a complex trussed system that can withstand heavy snow loads.

体育馆的屋顶由一个复杂的支架系统支撑，可以承受重雪负荷。

4.In modern construction, a trussed system allows for larger open spaces without the need for internal columns.

在现代建筑中，支架系统允许在没有内部柱子的情况下实现更大的开放空间。

5.The trussed system in this warehouse allows for maximum storage space while maintaining safety.

这个仓库中的支架系统在保持安全的同时，最大化了存储空间。

作文

In the world of architecture and engineering, the term trussed system refers to a structural framework that utilizes triangular units to support loads efficiently. This design is not only aesthetically pleasing but also remarkably effective in distributing weight and enhancing stability. The concept of a trussed system can be observed in various structures, from bridges to roofs, showcasing its versatility and strength. The primary advantage of a trussed system lies in its ability to span large distances without the need for excessive material. By employing triangles, which are inherently strong shapes, engineers can create frameworks that are both lightweight and robust. For instance, many modern bridges utilize trussed systems to ensure they can withstand heavy traffic and environmental stresses while minimizing the amount of steel or wood required. This efficiency not only reduces costs but also lessens the environmental impact of construction.Moreover, the use of a trussed system allows for greater flexibility in design. Architects can create open spaces with fewer support columns, making interiors more functional and visually appealing. This is particularly beneficial in commercial buildings and sports arenas, where unobstructed views and open floor plans are essential. The aesthetic appeal of a trussed system cannot be overlooked either; the exposed beams and intricate designs often become focal points of architectural beauty, attracting admiration from both professionals and the general public.However, designing a trussed system requires careful consideration of various factors, including load distribution, material selection, and environmental conditions. Engineers must conduct thorough analyses to ensure that the structure can handle anticipated loads while maintaining safety and durability. Additionally, the choice of materials plays a critical role in the performance of a trussed system. Steel, wood, and even advanced composites can be used, each offering different advantages and challenges.Another important aspect of trussed systems is their adaptability to different environments. For example, in areas prone to earthquakes, specially designed trussed systems can provide enhanced resilience against seismic forces. Similarly, regions with heavy snowfall may require modifications to ensure that the trussed system can bear additional weight without compromising safety.In conclusion, the trussed system is a crucial element in modern construction, providing a perfect blend of functionality, efficiency, and aesthetic appeal. Its ability to support significant loads while spanning large distances makes it an invaluable tool for architects and engineers alike. As we continue to innovate and push the boundaries of design, the trussed system will undoubtedly remain a fundamental component of our built environment, evolving to meet the needs of future generations. Understanding the intricacies of this system not only enhances our appreciation for engineering marvels but also inspires us to think creatively about how we can use such principles to solve contemporary architectural challenges.

在建筑和工程领域，术语trussed system指的是一种利用三角单元有效支撑负载的结构框架。这种设计不仅美观，而且在分配重量和增强稳定性方面非常有效。trussed system的概念可以在各种结构中观察到，从桥梁到屋顶，展示了它的多功能性和强度。trussed system的主要优点在于它能够在不需要过多材料的情况下跨越大距离。通过采用三角形这种固有强度的形状，工程师可以创建既轻便又坚固的框架。例如，许多现代桥梁利用trussed systems来确保它们能够承受重型交通和环境压力，同时最小化所需的钢材或木材的使用。这种效率不仅降低了成本，还减少了建筑对环境的影响。此外，使用trussed system可以在设计上提供更大的灵活性。建筑师可以创造出更少支撑柱的开放空间，使内部更加实用和视觉上更具吸引力。这在商业建筑和体育场馆中特别有益，因为无障碍视野和开放式平面图是必不可少的。trussed system的美学魅力也不容忽视；暴露的横梁和复杂的设计常常成为建筑美的焦点，吸引专业人士和公众的赞赏。然而，设计trussed system需要仔细考虑各种因素，包括负载分配、材料选择和环境条件。工程师必须进行彻底的分析，以确保结构能够承受预期的负载，同时保持安全性和耐久性。此外，材料的选择在trussed system的性能中起着关键作用。钢、木材甚至先进的复合材料都可以使用，每种材料都有不同的优点和挑战。trussed systems的另一个重要方面是它们对不同环境的适应性。例如，在地震频发地区，特别设计的trussed systems可以提供增强的抗震能力。同样，降雪量大的地区可能需要进行修改，以确保trussed system能够承受额外的重量而不妨碍安全。总之，trussed system是现代建筑中的一个关键要素，提供了功能性、效率和美学吸引力的完美结合。它能够在跨越大距离的同时支撑重大负载，使其成为建筑师和工程师的重要工具。随着我们不断创新并推动设计的边界，trussed system无疑将继续成为我们建筑环境的基础组成部分，发展以满足未来几代人的需求。理解这一系统的复杂性不仅增强了我们对工程奇迹的欣赏，也激励我们创造性地思考如何利用这些原则来解决当代建筑挑战。