length of superstructure

简明释义

上层建筑长度

英英释义

例句

1.The architect specified the length of superstructure in the design documents for the new bridge.

建筑师在新桥的设计文件中指定了上部结构的长度。

2.The contractor provided an estimate based on the length of superstructure needed for the renovation.

承包商根据翻新的需要提供了基于上部结构的长度的估算。

3.During the inspection, we measured the length of superstructure to verify compliance with safety standards.

在检查过程中，我们测量了上部结构的长度以验证是否符合安全标准。

4.Understanding the length of superstructure is crucial for calculating material requirements.

理解上部结构的长度对于计算材料需求至关重要。

5.The engineer calculated the length of superstructure to ensure it could support the weight of the building.

工程师计算了上部结构的长度以确保其能够支撑建筑物的重量。

作文

The term length of superstructure refers to the measurement of the upper part of a structure that is built above its foundation. This concept is crucial in various fields, including engineering and architecture, as it directly impacts the stability, functionality, and aesthetic appeal of the overall design. In civil engineering, for instance, understanding the length of superstructure is essential when designing bridges, buildings, and other large structures. The superstructure typically includes elements such as beams, columns, and roofs, which collectively support the weight of the building and withstand external forces like wind and earthquakes.To illustrate the significance of the length of superstructure, consider the construction of a bridge. Engineers must calculate the optimal length of the superstructure to ensure it can span the distance between supports while maintaining safety and durability. If the length of superstructure is too short, the bridge may not be able to accommodate the necessary load, leading to structural failure. Conversely, if it is excessively long, it may require additional materials and resources, increasing construction costs and time.Moreover, the length of superstructure plays a vital role in the overall aesthetic of a building. A well-proportioned superstructure can enhance the visual appeal of a structure, making it more attractive to potential occupants and visitors. Architects often manipulate the length of superstructure to create unique designs that stand out in urban landscapes. For example, skyscrapers with elongated superstructures can give an impression of height and grandeur, while shorter structures may convey a sense of intimacy and comfort.In addition to its physical implications, the length of superstructure also has environmental considerations. Longer superstructures may have a larger footprint, affecting the surrounding ecosystem and potentially leading to habitat destruction. Therefore, engineers and architects must balance the need for a functional and aesthetically pleasing design with the responsibility to protect the environment.Furthermore, modern advancements in materials science have allowed for innovative approaches to the length of superstructure. New materials such as high-strength concrete and lightweight steel enable engineers to design longer spans without compromising safety or stability. This innovation opens up new possibilities for architectural designs, allowing for more creative and ambitious projects.In conclusion, the length of superstructure is a fundamental aspect of construction that encompasses not only the technical specifications of a structure but also its aesthetic and environmental impacts. Understanding this concept is essential for professionals in the field, as it influences the design, safety, and sustainability of various constructions. As we continue to advance in engineering and architecture, the importance of optimizing the length of superstructure will only grow, ensuring that our built environment remains functional, beautiful, and harmonious with nature.

“superstructure的长度”一词是指建筑物基础之上的上部结构的测量。这个概念在工程和建筑等多个领域至关重要，因为它直接影响整体设计的稳定性、功能性和美观性。在土木工程中，理解“superstructure的长度”对于设计桥梁、建筑物和其他大型结构至关重要。上部结构通常包括梁、柱和屋顶等元素，这些元素共同支撑建筑物的重量，并抵御风和地震等外部力量。为了说明“superstructure的长度”的重要性，考虑一下桥梁的建设。工程师必须计算上部结构的最佳长度，以确保它能够跨越支撑之间的距离，同时保持安全性和耐用性。如果“superstructure的长度”太短，桥梁可能无法承受必要的负荷，从而导致结构失效。相反，如果长度过长，则可能需要额外的材料和资源，从而增加施工成本和时间。此外，“superstructure的长度”在建筑物的整体美学中也发挥着重要作用。比例协调的上部结构可以增强建筑物的视觉吸引力，使其对潜在的居住者和访客更具吸引力。建筑师常常操控“superstructure的长度”，以创造在城市景观中独树一帜的独特设计。例如，具有延长上部结构的摩天大楼可以给人以高度和宏伟的印象，而较短的结构可能传达出亲密和舒适感。除了物理影响外，“superstructure的长度”还有环境方面的考虑。较长的上部结构可能会有更大的占地面积，影响周围生态系统并可能导致栖息地破坏。因此，工程师和建筑师必须在功能性和美观设计的需求与保护环境的责任之间取得平衡。此外，现代材料科学的进步使得对“superstructure的长度”采取创新方法成为可能。新型材料如高强度混凝土和轻质钢材使工程师能够设计更长的跨距，而不影响安全性或稳定性。这种创新为建筑设计开辟了新的可能性，使得更具创意和雄心勃勃的项目成为可能。总之，“superstructure的长度”是建筑中的一个基本方面，它不仅包括结构的技术规格，还包括其美学和环境影响。理解这一概念对于该领域的专业人士至关重要，因为它影响各种建筑的设计、安全性和可持续性。随着我们在工程和建筑领域的不断进步，优化“superstructure的长度”的重要性将只会增加，确保我们的人造环境在功能、美观和与自然的和谐方面保持良好。