trestlework

简明释义

英[ˈtresəlwɜːk]美[ˈtreslˌwɜːrk]

n. 栈架结构；叉架工程

英英释义

单词用法

同义词

反义词

例句

1.Later on, the on-site concrete durability test of the trestlework in the workshop building is taken as one example to analyze the concrete cover and the dept of its carbonization.

开展了某工业厂房栈桥柱的耐久性现场检测工作，对实测的混凝土保护层厚度和碳化深度进行了分析；

2.Later on, the on-site concrete durability test of the trestlework in the workshop building is taken as one example to analyze the concrete cover and the dept of its carbonization.

开展了某工业厂房栈桥柱的耐久性现场检测工作，对实测的混凝土保护层厚度和碳化深度进行了分析；

3.Millennial canal view under wood trestlework and natural green plants on riverbank becomes one of unique natural view points of courtyard on canal bank.

千年运河图景在木栈台与河堤自然绿植的掩映下，成为运河岸上的院子独特的自然视点之一。

4.The bridge was supported by intricate trestlework, allowing trains to cross the valley safely.

这座桥由复杂的支架结构支撑，使火车能够安全地穿越山谷。

5.During the renovation, the engineers had to reinforce the trestlework to ensure its stability.

在翻修过程中，工程师们必须加固支架结构以确保其稳定性。

6.The artist used trestlework as a backdrop for her outdoor exhibition, showcasing both art and engineering.

艺术家将支架结构作为她户外展览的背景，展示艺术与工程的结合。

7.Many old railroads feature beautiful trestlework that reflects the craftsmanship of the past.

许多老铁路都有美丽的支架结构，反映了过去的工艺水平。

8.The construction team completed the trestlework ahead of schedule, impressing the project manager.

施工队提前完成了支架结构，给项目经理留下了深刻印象。

作文

In the realm of architecture and engineering, the term trestlework refers to a framework consisting of a series of trestles that support a structure, typically a bridge or railway. This design is not only functional but also aesthetically pleasing, allowing for large spans without the need for extensive solid supports. The use of trestlework can be traced back to ancient civilizations, where wooden trestles were employed to elevate structures above ground level, providing stability and accessibility. One of the most iconic examples of trestlework can be found in the construction of railway bridges. These bridges often utilize a series of triangular trusses made from steel or wood, creating a robust yet lightweight framework that can withstand the weight of passing trains. The design allows for flexibility and resilience against environmental factors such as wind and earthquakes, making trestlework an essential component in modern engineering. Beyond its structural significance, trestlework has also played a vital role in the development of scenic railways and tourist attractions. Many railway companies have utilized this design to create picturesque routes that offer breathtaking views of landscapes. The combination of nature and engineering marvels draws tourists from all over the world, eager to experience the thrill of traveling across these magnificent structures. The aesthetic appeal of trestlework enhances the overall journey, making it a memorable experience for passengers. Moreover, trestlework has found applications in various other fields, including agriculture and construction. In farming, trestle-like structures are used to support crops, allowing for better air circulation and sunlight exposure, ultimately leading to healthier plants. Similarly, in construction, trestlework is employed to create scaffolding systems that provide workers with safe access to elevated areas, showcasing its versatility. The evolution of materials used in trestlework has also contributed to its enduring popularity. While traditional designs relied heavily on wood, advancements in technology have introduced materials such as reinforced concrete and steel, which offer greater durability and lower maintenance costs. This shift has allowed engineers to push the boundaries of design, creating larger and more intricate structures that were once thought impossible. In conclusion, trestlework represents a fascinating intersection of functionality and artistry in the fields of architecture and engineering. Its historical significance, coupled with its modern applications, highlights the importance of this design in our built environment. As we continue to innovate and explore new materials and techniques, trestlework will undoubtedly remain a key element in the creation of structures that inspire awe and admiration. Whether viewed from afar or experienced up close, the beauty and practicality of trestlework will continue to captivate future generations, reminding us of the ingenuity of human design.

支架结构在建筑和工程领域中是指由一系列支架组成的框架，支撑着结构，通常是桥梁或铁路。这种设计不仅功能性强，而且美观，可以在不需要大量实心支撑的情况下实现大跨度。支架结构的使用可以追溯到古代文明，当时木质支架被用来将结构抬高于地面，提供稳定性和可达性。 一个最具标志性的例子就是铁路桥的建设。这些桥通常利用一系列由钢或木材制成的三角桁架，创造出一种坚固而轻便的框架，能够承受经过列车的重量。这种设计允许对抗风和地震等环境因素的灵活性和韧性，使得支架结构成为现代工程的重要组成部分。 除了其结构意义之外，支架结构在风景铁路和旅游景点的发展中也发挥了重要作用。许多铁路公司利用这种设计创建风景如画的路线，提供令人叹为观止的自然景观。自然与工程奇迹的结合吸引了来自世界各地的游客，他们渴望体验跨越这些壮丽结构的刺激。支架结构的美学吸引力提升了整体旅程，使乘客的经历令人难忘。 此外，支架结构还在农业和建筑等多个领域找到了应用。在农业中，类似支架的结构用于支撑作物，改善空气流通和阳光照射，从而促进植物的健康生长。同样，在建筑中，支架结构被用来创建脚手架系统，为工人提供安全的高处作业通道，展示了其多功能性。 材料的演变也为支架结构的持久流行做出了贡献。虽然传统设计主要依赖木材，但技术进步引入了如增强混凝土和钢等材料，这些材料提供了更大的耐用性和更低的维护成本。这一转变使工程师能够突破设计的界限，创造出曾经认为不可能的大型和复杂结构。 总之，支架结构代表了建筑和工程领域功能性与艺术性的迷人交汇。其历史意义以及现代应用凸显了这一设计在我们建筑环境中的重要性。随着我们不断创新和探索新材料和技术，支架结构无疑将继续作为创造激发敬畏和钦佩的结构的关键元素。无论是远观还是近距离体验，支架结构的美丽与实用将继续吸引未来几代人，让我们铭记人类设计的智慧。