truss
简明释义
n. 束;构架;捆
vt. 捆绑;用构架支撑
n. (Truss)人名;(德)特鲁斯;(英)特拉斯
复 数 t r u s s e s
第 三 人 称 单 数 t r u s s e s
现 在 分 词 t r u s s i n g
过 去 式 t r u s s e d
过 去 分 词 t r u s s e d
英英释义
A framework, typically consisting of rafters, posts, and struts, that supports a roof or bridge. | 一种框架,通常由椽子、柱子和支撑物组成,用于支撑屋顶或桥梁。 |
用绳索或带子紧紧绑住或束缚。 |
单词用法
钢桁架 | |
空间桁架 |
同义词
反义词
| 松开 | 请松开背包上的带子。 | ||
| 释放 | 他决定释放肌肉中的紧张。 |
例句
1.The gable walls have been designed to transmit seismic forces from the roof plane by forming a truss with the ridge beams.
山墙的设计可以传送来自屋顶平面的地震力,屋顶平面是由脊梁形成桁架组成的。
2.Spokewise prestressed cable-truss structure is a new type of spatial structure.
轮辐式预应力索桁结构是一种新型空间结构。
3.The article forecasts well applications of steel tube truss structure.
展望管桁结构有着良好的应用前景。
4.Trousers probably derived from the words trousers-- drawers, trousses--trunk hose, and/or trousse--to cover, truss.
单词trousers可能源自trunkhose(宽松短罩裤)和/或trousse(覆盖、捆束)。
5.Run the failing command and stop the truss.
运行失败的命令并停止truss。
6.Truss returns a list of the system calls, the total time spent executing the call, the number of calls, and any errors found.
truss返回系统调用的列表、执行调用耗费的总时间、调用的次数和任何发现的问题。
7.Truss can also look at library calls, but doesn't provide the same level of detail as it can for system calls.
truss还可以跟踪库调用,但是无法提供像系统调用那样详细的信息。
8.She used a truss to secure the plants in her garden.
她用一个支架来固定花园里的植物。
9.In the theater, the lighting was hung from a metal truss above the stage.
在剧院,照明灯挂在舞台上方的金属桁架上。
10.During the construction, they installed a wooden truss to enhance stability.
在施工过程中,他们安装了一个木制桁架以增强稳定性。
11.The architect decided to use a steel truss to support the roof of the building.
建筑师决定使用钢制桁架来支撑建筑的屋顶。
12.The bridge was designed with a complex truss system to distribute weight evenly.
这座桥采用了复杂的桁架系统,以均匀分配重量。
作文
In the field of engineering and architecture, the term truss refers to a structural framework that is designed to support loads. A truss typically consists of triangular units, which are connected at joints to form a stable structure. The design of a truss allows it to efficiently distribute weight and withstand various forces, making it an essential component in bridges, roofs, and towers. The use of trusses can be traced back to ancient civilizations, where builders utilized simple wooden frameworks to create strong and durable structures.One of the most common applications of trusses is in the construction of roofs. Roof trusses provide the necessary support for the roofing material while allowing for open spaces beneath, which can be used for living areas or storage. This is particularly beneficial in residential buildings, where maximizing usable space is often a priority. The triangular shape of a truss helps to evenly distribute the weight of the roof, preventing sagging and ensuring the longevity of the structure.In addition to roofs, trusses are also widely used in bridge construction. The strength and stability provided by a truss make it an ideal choice for spanning long distances without the need for excessive support columns. For instance, many modern bridges utilize a design that incorporates multiple trusses to create a robust framework capable of supporting heavy traffic loads. The efficiency of a truss in distributing weight allows for lighter materials to be used, ultimately reducing construction costs and environmental impact.The versatility of trusses extends beyond traditional construction. In recent years, engineers have begun to explore the use of trusses in innovative ways, such as in temporary structures for events or in the design of large-scale art installations. These applications showcase the adaptability of the truss concept, proving that it can be utilized in both functional and aesthetic contexts.Moreover, advancements in technology have led to the development of new materials for constructing trusses. While wood has been the traditional choice, modern engineers are now using steel and composite materials to create even stronger and lighter trusses. This evolution not only enhances the performance of trusses but also opens up new possibilities for architectural design.In conclusion, the truss is a fundamental element in the fields of engineering and architecture, providing strength, stability, and versatility. Its ability to efficiently support loads makes it a preferred choice for various structures, from roofs and bridges to temporary installations. As technology continues to advance, the future of trusses looks promising, with endless possibilities for innovation in design and material usage. Understanding the importance and functionality of a truss is essential for anyone interested in the built environment, as it plays a crucial role in shaping the structures we inhabit and rely upon every day.
在工程和建筑领域,术语truss指的是一种旨在承载负荷的结构框架。truss通常由三角形单元组成,这些单元在接头处连接,形成一个稳定的结构。truss的设计使其能够有效分配重量并承受各种力,因此在桥梁、屋顶和塔楼中是一个重要组件。trusses的使用可以追溯到古代文明,当时建筑师利用简单的木框架来创建坚固耐用的结构。trusses最常见的应用之一是在屋顶的施工中。屋顶trusses提供了必要的支持,以支撑屋面材料,同时允许下面的开放空间可用于居住区或存储。这在住宅建筑中尤其有利,因为最大化可用空间通常是优先事项。truss的三角形形状有助于均匀分配屋顶的重量,防止下垂并确保结构的耐久性。除了屋顶,trusses还广泛用于桥梁建设。truss提供的强度和稳定性使其成为跨越长距离而无需过多支撑柱的理想选择。例如,许多现代桥梁采用包含多个trusses的设计,以创建一个强大的框架,能够支持重型交通负荷。truss在分配重量方面的效率使得可以使用更轻的材料,从而最终降低了建设成本和环境影响。trusses的多功能性超越了传统建筑。近年来,工程师们开始探索在创新方式中使用trusses,例如在活动的临时结构或大型艺术装置的设计中。这些应用展示了truss概念的适应性,证明它可以在功能和美学的背景中使用。此外,技术的进步导致了构建trusses的新材料的发展。虽然木材一直是传统选择,但现代工程师现在使用钢材和复合材料来创建更强大、更轻便的trusses。这种演变不仅增强了trusses的性能,还开辟了建筑设计的新可能性。总之,truss是工程和建筑领域的基本元素,提供了强度、稳定性和多功能性。它高效承载负荷的能力使其成为各种结构的首选,包括屋顶、桥梁和临时装置。随着技术的不断进步,trusses的未来看起来前景广阔,在设计和材料使用方面有无尽的创新可能性。理解truss的重要性和功能对于任何对建筑环境感兴趣的人来说都是必不可少的,因为它在塑造我们每天所居住和依赖的结构中发挥着至关重要的作用。
