cable geometry

简明释义

缆索几何形状

英英释义

例句

1.The software can simulate different cable geometries to predict performance under various conditions.

该软件可以模拟不同的电缆几何形状以预测在各种条件下的性能。

2.In bridge design, the cable geometry plays a crucial role in maintaining structural integrity.

在桥梁设计中，电缆几何形状在保持结构完整性方面起着至关重要的作用。

3.The engineer analyzed the cable geometry to ensure optimal load distribution.

工程师分析了电缆几何形状以确保最佳负载分配。

4.Understanding the cable geometry is essential for effective tensioning in suspension systems.

理解电缆几何形状对于悬挂系统中的有效张紧至关重要。

5.Adjusting the cable geometry can significantly affect the efficiency of the transmission line.

调整电缆几何形状可以显著影响输电线路的效率。

作文

In the realm of engineering and architecture, the term cable geometry plays a crucial role in the design and functionality of structures. Cable geometry refers to the arrangement and configuration of cables within a structure, which can significantly affect its stability, aesthetics, and performance. This concept is particularly relevant in the construction of bridges, towers, and other large-scale projects where tensioned cables are used to support loads and maintain structural integrity.One of the most iconic examples of cable geometry can be seen in suspension bridges. These bridges utilize long cables that are anchored at either end and hang freely between towers. The cable geometry in these designs is critical as it determines how weight is distributed and how forces are transmitted through the structure. Engineers must carefully calculate the angles and lengths of the cables to ensure that they can support the expected loads while maintaining a safe margin of error.Moreover, the aesthetic aspect of cable geometry cannot be overlooked. The way cables are arranged can create visually stunning profiles that enhance the beauty of a structure. For instance, the Golden Gate Bridge in San Francisco showcases a magnificent cable geometry that not only serves a functional purpose but also contributes to the iconic skyline of the city. The interplay between form and function in cable geometry exemplifies how engineering and art can coexist harmoniously.In addition to bridges, cable geometry is also essential in the design of towers, such as radio towers and transmission lines. These structures often rely on a network of cables to remain upright and stable against environmental forces like wind and earthquakes. The configuration of these cables must be meticulously planned to ensure that the tower can withstand various stresses without collapsing. The study of cable geometry extends beyond mere construction; it also encompasses the analysis of dynamic responses under different load conditions, which is vital for the safety and longevity of these structures.Furthermore, advancements in technology have allowed engineers to explore innovative cable geometry configurations that were previously unimaginable. Computer-aided design (CAD) tools enable precise modeling of cable systems, allowing for optimization in both performance and aesthetics. Innovations such as the use of high-strength materials and adaptive cable systems have revolutionized the way engineers approach cable geometry, leading to lighter, more efficient structures that are capable of spanning greater distances than ever before.In conclusion, cable geometry is a fundamental aspect of modern engineering that intertwines functionality with artistry. Its significance is evident in various applications, from suspension bridges to tall towers. Understanding the principles of cable geometry not only enhances our ability to design safer and more efficient structures but also enriches our appreciation for the beauty of engineered forms. As we continue to push the boundaries of architecture and engineering, the study of cable geometry will remain a vital area of focus, ensuring that our structures are not only strong and durable but also visually captivating and harmonious with their surroundings.

在工程和建筑领域，术语cable geometry（电缆几何）在结构的设计和功能中起着至关重要的作用。cable geometry（电缆几何）指的是结构中电缆的排列和配置，这可以显著影响其稳定性、美学和性能。这个概念在悬索桥、塔楼和其他大型项目的建设中尤为相关，这些项目使用张紧电缆来支撑负载并保持结构完整性。最具代表性的cable geometry（电缆几何）示例可以在悬索桥中看到。这些桥利用长电缆，在两端锚固，并在塔之间自由悬挂。此类设计中的cable geometry（电缆几何）至关重要，因为它决定了重量的分布以及力在结构中的传递方式。工程师必须仔细计算电缆的角度和长度，以确保它们能够支撑预期的负载，同时保持安全的误差范围。此外，cable geometry（电缆几何）的美学方面也不可忽视。电缆的排列方式可以创造出视觉上令人惊叹的轮廓，增强结构的美感。例如，旧金山的金门大桥展示了壮观的cable geometry（电缆几何），不仅具有功能目的，还为城市的标志性天际线做出了贡献。cable geometry（电缆几何）中形式与功能的相互作用体现了工程与艺术如何和谐共存。除了桥梁，cable geometry（电缆几何）在塔楼的设计中也至关重要，例如广播塔和输电线路。这些结构通常依赖于电缆网络以保持直立并稳定抵御风和地震等环境力量。这些电缆的配置必须经过精心规划，以确保塔楼能够承受各种应力而不会倒塌。对cable geometry（电缆几何）的研究不仅仅局限于施工；它还包括在不同负载条件下动态响应的分析，这对这些结构的安全性和耐久性至关重要。此外，技术的进步使工程师能够探索以前无法想象的创新cable geometry（电缆几何）配置。计算机辅助设计（CAD）工具使电缆系统的精确建模成为可能，从而在性能和美学上进行优化。高强度材料和自适应电缆系统等创新彻底改变了工程师对cable geometry（电缆几何）的处理方式，导致更轻、更高效的结构能够跨越比以往更大的距离。总之，cable geometry（电缆几何）是现代工程的一个基本方面，将功能性与艺术性交织在一起。其重要性在悬索桥到高塔的各种应用中都显而易见。理解cable geometry（电缆几何）的原理不仅增强了我们设计更安全、更高效结构的能力，也丰富了我们对工程形式美的欣赏。随着我们继续推动建筑和工程的边界，cable geometry（电缆几何）的研究将始终是一个重要的关注领域，确保我们的结构不仅坚固耐用，而且在视觉上引人注目，与周围环境和谐共处。