compound mast

简明释义

组合桅

英英释义

例句

1.The telecommunications company invested in a new compound mast 复合桅杆 to enhance signal coverage in urban areas.

这家电信公司投资了一座新的 compound mast 复合桅杆 以增强城市地区的信号覆盖。

2.The engineer explained that the compound mast 复合桅杆 is used to support multiple antennas on a single structure.

工程师解释说，compound mast 复合桅杆 用于在单一结构上支撑多个天线。

3.The design of the compound mast 复合桅杆 allows for easy maintenance and access to the equipment.

该 compound mast 复合桅杆 的设计便于维护和设备访问。

4.During the installation, they had to ensure that the compound mast 复合桅杆 was correctly aligned for optimal performance.

在安装过程中，他们必须确保 compound mast 复合桅杆 正确对齐以获得最佳性能。

5.After the storm, the compound mast 复合桅杆 was found to be damaged and needed urgent repairs.

风暴过后，发现 compound mast 复合桅杆 受损，需要紧急维修。

作文

In the world of engineering and architecture, the term compound mast refers to a structural element that combines multiple components to achieve greater stability and functionality. A compound mast is typically used in various applications, such as telecommunications, broadcasting, and even in some forms of transportation. Understanding the significance of a compound mast can provide insights into how modern structures are designed to withstand environmental challenges while fulfilling their intended purposes.The design of a compound mast is often influenced by the need for height and strength. For instance, in telecommunications, these masts are essential for supporting antennas that transmit signals over long distances. The combination of different materials—such as steel, aluminum, and composites—creates a structure that is not only tall but also resilient against wind, rain, and other forces of nature. This is particularly important in areas prone to extreme weather conditions, where a sturdy compound mast can mean the difference between reliable service and frequent outages.Moreover, the construction of a compound mast involves careful planning and engineering calculations. Engineers must consider factors like load distribution, material properties, and the mast's height to ensure it meets safety standards. This complexity highlights the importance of interdisciplinary collaboration among architects, engineers, and construction teams. Each professional brings unique expertise to the table, ensuring that the final product is both functional and safe.In addition to their practical applications, compound masts also serve aesthetic purposes. In urban environments, they can be designed to blend seamlessly with the skyline, contributing to the overall architectural vision of a city. This aspect is particularly relevant when discussing the integration of technology into public spaces, where visual appeal and functionality must coexist. Cities are increasingly recognizing the need for structures that not only perform well but also enhance the urban landscape.Furthermore, the evolution of technology has led to innovations in the design and materials used for compound masts. For example, advancements in lightweight materials have enabled engineers to create taller and more slender masts without compromising stability. These innovations play a crucial role in the deployment of new technologies, such as 5G networks, which require a denser network of antennas to function effectively. As we move into an era of smart cities, the role of compound masts will likely become even more significant, as they will support an increasing number of connected devices and services.In conclusion, the concept of a compound mast encompasses much more than just a tall structure. It represents the intersection of engineering, technology, and design, showcasing how modern society adapts to the demands of communication and infrastructure. As we continue to innovate and improve our built environment, understanding the role of compound masts will be essential for future developments in both urban planning and engineering. By appreciating the complexities involved in their design and construction, we can better understand the importance of these structures in our daily lives and the broader context of technological advancement.

在工程和建筑领域，术语复合桅杆指的是一种结构元素，它结合了多个组件，以实现更大的稳定性和功能性。复合桅杆通常用于各种应用中，例如电信、广播，甚至某些形式的交通运输。理解复合桅杆的重要性可以提供关于现代结构如何设计以抵御环境挑战，同时满足其预期目的的见解。复合桅杆的设计通常受到高度和强度需求的影响。例如，在电信领域，这些桅杆对于支撑传输长距离信号的天线至关重要。不同材料的组合——如钢、铝和复合材料——创造了一个不仅高而且能抵御风、雨和其他自然力量的结构。这在极端天气条件频繁发生的地区尤为重要，坚固的复合桅杆可以决定服务的可靠性与频繁中断之间的差异。此外，复合桅杆的建造涉及仔细的规划和工程计算。工程师必须考虑负载分布、材料特性和桅杆高度等因素，以确保其符合安全标准。这种复杂性突显了建筑师、工程师和施工团队之间跨学科合作的重要性。每位专业人士都带来了独特的专业知识，确保最终产品既功能性强又安全。除了实用应用外，复合桅杆还具有美学目的。在城市环境中，它们可以设计得与天际线无缝融合，为城市的整体建筑愿景做出贡献。当讨论技术与公共空间的融合时，这一方面尤为相关，因为视觉吸引力和功能性必须共存。城市越来越认识到需要那些不仅表现良好而且提升城市景观的结构。此外，技术的演变导致了对复合桅杆的设计和材料的创新。例如，轻质材料的进步使工程师能够创建更高、更纤细的桅杆，而不妨碍稳定性。这些创新在新技术的部署中发挥着至关重要的作用，例如5G网络，这需要更密集的天线网络才能有效运行。随着我们迈入智能城市时代，复合桅杆的角色可能会变得更加重要，因为它们将支持越来越多的连接设备和服务。总之，复合桅杆的概念远不止于一座高耸的结构。它代表了工程、技术和设计的交汇点，展示了现代社会如何适应通信和基础设施的需求。随着我们继续创新和改善我们的建筑环境，理解复合桅杆的角色将对未来城市规划和工程的发展至关重要。通过欣赏其设计和建造中的复杂性，我们可以更好地理解这些结构在我们日常生活和技术进步的更广泛背景中的重要性。