lattice truss

简明释义

格构桁架

英英释义

例句

1.Engineers often use a lattice truss in the construction of large buildings for added stability.

工程师们在大型建筑的施工中常常使用格子桁架以增加稳定性。

2.The bridge was designed with a strong lattice truss to support heavy loads.

这座桥的设计采用了坚固的格子桁架来支撑重载。

3.The architect proposed using a lattice truss to enhance the aesthetic appeal of the building.

建筑师提议使用格子桁架来增强建筑的美学吸引力。

4.A lattice truss can distribute weight evenly across its structure, making it ideal for bridges.

格子桁架能够均匀分配重量，使其成为桥梁的理想选择。

5.The roof of the sports hall features a modern lattice truss system that allows for wide open spaces.

体育馆的屋顶采用了现代的格子桁架系统，以实现宽敞的开放空间。

作文

The concept of a lattice truss is fundamental in the field of structural engineering. A lattice truss is a framework made up of small, interconnected triangles that distribute loads effectively across a structure. This design is not only efficient but also lightweight, making it ideal for various applications, including bridges, roofs, and towers. The triangular shapes in a lattice truss provide inherent stability, as they help to prevent deformation under stress. One of the primary advantages of using a lattice truss is its ability to span large distances without the need for excessive material. This is particularly important in modern architecture and engineering, where minimizing material use can lead to both cost savings and environmental benefits. For example, when designing a bridge, engineers often opt for a lattice truss configuration to ensure that the structure can support heavy loads while remaining as light as possible. Moreover, the construction of a lattice truss can be simplified due to its modular nature. Components can be prefabricated off-site and then assembled on location, reducing construction time and labor costs. This method is increasingly popular in the construction industry, as it allows for greater precision and quality control. In addition to its practical applications, the aesthetic appeal of a lattice truss cannot be overlooked. Many architects appreciate the intricate patterns created by the intersecting members of the truss, which can add a unique visual element to buildings and structures. For instance, the famous Eiffel Tower in Paris employs a lattice structure that not only serves a functional purpose but also contributes to its iconic silhouette. However, designing a lattice truss requires careful consideration of various factors, including load distribution, material properties, and environmental conditions. Engineers must perform rigorous calculations to ensure that the structure can withstand forces such as wind, earthquakes, and live loads from occupants. Advanced software tools are often utilized to model these forces and simulate how the lattice truss will behave under different scenarios. In conclusion, the lattice truss is a remarkable innovation in structural design that combines efficiency, strength, and beauty. Its ability to support significant loads while minimizing material usage makes it a preferred choice for many engineers and architects. As we continue to explore new materials and technologies, the lattice truss will undoubtedly remain a vital component in the evolution of modern structures. Understanding and mastering the principles behind a lattice truss is essential for anyone pursuing a career in engineering or architecture, as it embodies the intersection of creativity and technical expertise.

“格子桁架”的概念在结构工程领域中是基础性的。“格子桁架”是一种由小型相互连接的三角形组成的框架，能够有效地分配结构上的负荷。这种设计不仅高效，而且轻便，使其在桥梁、屋顶和塔楼等各种应用中理想。三角形的形状为“格子桁架”提供了固有的稳定性，因为它们帮助防止在压力下变形。使用“格子桁架”的主要优势之一是其能够跨越大距离而不需要过多的材料。这在现代建筑和工程中尤为重要，因为减少材料使用可以带来成本节约和环境效益。例如，在设计桥梁时，工程师通常选择“格子桁架”结构，以确保该结构能够支持重载，同时保持尽可能轻便。此外，由于其模块化的特性，构建“格子桁架”可以简化。部件可以在工厂预制，然后在现场组装，从而减少施工时间和人工成本。这种方法在建筑行业中越来越受欢迎，因为它允许更大的精确度和质量控制。除了其实用应用外，“格子桁架”的美学吸引力也不容忽视。许多建筑师欣赏桁架交叉构件所形成的复杂图案，这可以为建筑和结构增添独特的视觉元素。例如，巴黎著名的埃菲尔铁塔采用了格子结构，不仅具有功能目的，还为其标志性轮廓贡献了力量。然而，设计“格子桁架”需要仔细考虑各种因素，包括负荷分配、材料特性和环境条件。工程师必须进行严格的计算，以确保结构能够承受风、地震和来自使用者的活载等力量。通常会利用先进的软件工具来模拟这些力量，并模拟“格子桁架”在不同场景下的行为。总之，“格子桁架”是一项出色的结构设计创新，它结合了效率、强度和美感。它能够在最小化材料使用的同时支持重大负荷，使其成为许多工程师和建筑师的首选。随着我们继续探索新材料和技术，“格子桁架”无疑将在现代结构的演变中保持重要组成部分。理解和掌握“格子桁架”背后的原理对任何追求工程或建筑职业的人来说都是至关重要的，因为它体现了创造力与技术专长的交汇。