rise of a truss

简明释义

桁架高

英英释义

例句

1.During the construction meeting, the engineer discussed the rise of a truss to ensure proper load distribution.

在施工会议上，工程师讨论了桁架的高度以确保适当的荷载分配。

2.The contractor provided a detailed drawing showing the rise of a truss for the roof structure.

承包商提供了一份详细图纸，显示屋顶结构的桁架的高度。

3.In the workshop, students learned about the mechanics behind the rise of a truss and its applications in engineering.

在车间，学生们学习了桁架的高度背后的力学及其在工程中的应用。

4.The architect explained the rise of a truss in the new bridge design, emphasizing its importance for structural integrity.

建筑师解释了新桥设计中桁架的高度，强调了其对结构完整性的重要性。

5.Understanding the rise of a truss is crucial for calculating the overall height of the building.

理解桁架的高度对于计算建筑物的整体高度至关重要。

作文

The construction industry has seen numerous advancements in engineering and architectural design, one of which is the innovative use of trusses. A truss is a structural framework that supports loads, commonly used in bridges, roofs, and other constructions. Understanding the concept of the rise of a truss (桁架的升起) is essential for both engineers and architects alike, as it plays a significant role in determining the stability and aesthetics of a structure.The rise of a truss (桁架的升起) refers to the vertical distance from the bottom chord to the top chord of the truss, essentially measuring how high the truss rises. This measurement is crucial because it impacts the overall height of the building or structure, influencing not only its appearance but also its functionality. For example, in a roof truss system, the rise can determine the pitch of the roof, which affects water drainage and snow load resistance.In recent years, the design and implementation of trusses have evolved significantly. Engineers now utilize advanced software and technologies to optimize the rise of a truss (桁架的升起), ensuring that structures are both strong and visually appealing. By adjusting the rise, they can create unique architectural features while maintaining safety standards. The ability to manipulate the rise allows for more creative designs, enabling architects to push the boundaries of traditional construction methods.Moreover, the rise of a truss (桁架的升起) can also affect the material efficiency of a structure. A well-designed truss with an appropriate rise can distribute loads effectively, reducing the amount of material needed without compromising strength. This not only lowers construction costs but also contributes to sustainability efforts by minimizing waste. As the world becomes increasingly aware of environmental issues, efficient design choices like optimizing the rise of trusses become paramount.In practical applications, the rise of a truss (桁架的升起) is often determined by the specific requirements of a project. For instance, in residential buildings, homeowners may prefer a higher rise for aesthetic reasons, creating a more spacious feel in attics or vaulted ceilings. On the other hand, in industrial settings, a lower rise might be sufficient to meet functional needs while keeping costs down.Furthermore, the rise of a truss (桁架的升起) can influence the acoustics of a space. In auditoriums or concert halls, the rise must be carefully calculated to ensure sound waves travel effectively throughout the venue. An improper rise could lead to poor sound quality, which is detrimental to the experience of the audience.In conclusion, the rise of a truss (桁架的升起) is a fundamental aspect of structural design that impacts various elements of construction, including aesthetics, material efficiency, and functionality. As technology continues to advance, the possibilities for truss design expand, allowing for greater creativity and innovation in architecture. Understanding the nuances of truss rises will empower future engineers and architects to create structures that are not only safe and durable but also visually striking and environmentally responsible.

建筑行业经历了工程和建筑设计的众多进步，其中之一是桁架的创新使用。桁架是一种支撑负载的结构框架，常用于桥梁、屋顶和其他建筑物中。理解桁架的升起（rise of a truss）的概念对工程师和建筑师来说至关重要，因为它在决定结构的稳定性和美观性方面发挥着重要作用。桁架的升起（rise of a truss）指的是从桁架的底弦到顶弦的垂直距离，基本上衡量了桁架的高度。这一测量至关重要，因为它影响建筑或结构的整体高度，从而影响其外观和功能。例如，在屋顶桁架系统中，升高可以决定屋顶的坡度，这会影响排水和雪荷载的抵抗能力。近年来，桁架的设计和实施发生了显著变化。工程师现在利用先进的软件和技术来优化桁架的升起（rise of a truss），确保结构既坚固又美观。通过调整升高，他们可以创造独特的建筑特征，同时保持安全标准。操控升高的能力使得更具创意的设计成为可能，使建筑师能够突破传统建筑方法的界限。此外，桁架的升起（rise of a truss）也会影响结构的材料效率。一个设计良好的桁架，具有适当的升高，可以有效分配负载，减少所需材料的数量，而不会影响强度。这不仅降低了建筑成本，还有助于可持续发展努力，减少浪费。随着世界对环境问题的日益关注，优化桁架升高等高效设计选择变得至关重要。在实际应用中，桁架的升起（rise of a truss）通常由项目的具体要求决定。例如，在住宅建筑中，业主可能因美观考虑而偏好较高的升高，从而在阁楼或拱形天花板中创造更宽敞的感觉。另一方面，在工业环境中，较低的升高可能就足以满足功能需求，同时降低成本。此外，桁架的升起（rise of a truss）还会影响空间的声学效果。在礼堂或音乐厅中，升高必须经过仔细计算，以确保声波在场馆中的有效传播。不当的升高可能导致音质不佳，这对观众的体验是有害的。总之，桁架的升起（rise of a truss）是结构设计的基本方面，影响建筑的各个元素，包括美观、材料效率和功能性。随着技术的不断进步，桁架设计的可能性不断扩大，使得建筑创意和创新更加丰富。理解桁架升高的细微差别将使未来的工程师和建筑师能够创造出不仅安全耐用，而且视觉上引人注目和环境负责的结构。