abutment span

简明释义

岸墩距

英英释义

例句

1.The abutment span 支座跨距 needs to be reinforced to support the new weight of the structure.

需要加固支座跨距以支持新结构的重量.

2.The bridge's total length is determined by the two sides and the middle section, which includes the abutment span 支座跨距.

桥的总长度由两侧和中间部分决定，其中包括支座跨距.

3.Engineers must calculate the abutment span 支座跨距 to ensure stability during construction.

工程师必须计算支座跨距以确保施工期间的稳定性.

4.The design of the arch bridge relies heavily on the abutment span 支座跨距 for load distribution.

拱桥的设计在很大程度上依赖于支座跨距来分配负载.

5.During the inspection, we found that the abutment span 支座跨距 had some minor cracks.

在检查中，我们发现支座跨距有一些小裂缝.

作文

The concept of an abutment span is crucial in the field of civil engineering, particularly when designing bridges and other structures that require a strong foundation. An abutment span refers to the distance between two abutments, which are the supports at either end of a bridge or arch. These structures play a vital role in distributing the load from the bridge to the ground below, ensuring stability and safety. Understanding the mechanics of an abutment span is essential for engineers as it affects not only the design but also the materials used and the overall integrity of the structure.When planning a bridge, engineers must consider various factors such as the terrain, the materials available, and the expected load. The length of the abutment span can significantly influence these decisions. For instance, a longer abutment span may necessitate the use of stronger materials or additional support structures to handle the increased stress. Conversely, a shorter abutment span might allow for a more lightweight design, leading to cost savings and easier construction.Moreover, the design of the abutment span is not just about functionality; it also has aesthetic implications. A well-designed abutment span can enhance the visual appeal of a bridge, making it a landmark rather than just a means to cross a river or valley. Engineers often collaborate with architects to create structures that are both functional and beautiful, ensuring that the abutment span contributes positively to the surrounding environment.In addition to aesthetic considerations, the environmental impact of the abutment span must also be taken into account. Engineers need to evaluate how the construction and presence of the abutments will affect local ecosystems. This includes assessing potential disruptions to wildlife habitats and water flow patterns. By carefully planning the abutment span and its surrounding features, engineers can minimize negative impacts while still achieving their structural goals.Furthermore, the maintenance of an abutment span is an ongoing concern for engineers. Over time, factors such as weathering, corrosion, and shifting soil can affect the integrity of the abutments and the spans they support. Regular inspections and maintenance work are essential to ensure that the abutment span remains safe for public use. This aspect of engineering emphasizes the importance of durability and resilience in design, as well as the need for ongoing investment in infrastructure.In conclusion, the abutment span is a fundamental element in bridge design and civil engineering. Its implications extend beyond mere measurements; it encompasses considerations of load distribution, aesthetics, environmental impact, and long-term maintenance. As our infrastructure continues to evolve, understanding the intricacies of the abutment span will remain vital for engineers striving to create safe, efficient, and beautiful structures that serve communities for generations to come.

“支座跨度”这一概念在土木工程领域至关重要，尤其是在设计桥梁和其他需要坚固基础的结构时。“支座跨度”是指两端支座之间的距离，支座是桥梁或拱形结构两端的支撑。这些结构在将桥梁的负载分配到下面的地面上，确保稳定性和安全性方面发挥着重要作用。理解“支座跨度”的力学原理对工程师来说至关重要，因为它不仅影响设计，还影响所用材料和整个结构的完整性。在规划桥梁时，工程师必须考虑多种因素，如地形、可用材料和预期负载。“支座跨度”的长度可能显著影响这些决策。例如，较长的“支座跨度”可能需要使用更强的材料或额外的支撑结构来处理增加的压力。相反，较短的“支座跨度”可能允许更轻便的设计，从而节省成本并简化施工。此外，“支座跨度”的设计不仅关乎功能性；还具有美学意义。设计良好的“支座跨度”可以增强桥梁的视觉吸引力，使其成为地标，而不仅仅是跨越河流或山谷的手段。工程师通常与建筑师合作，创造既实用又美观的结构，确保“支座跨度”对周围环境产生积极贡献。除了美学考虑外，“支座跨度”的环境影响也必须纳入考虑。工程师需要评估支座的建设和存在将如何影响当地生态系统。这包括评估对野生动物栖息地和水流模式可能造成的干扰。通过仔细规划“支座跨度”及其周围特征，工程师可以在实现结构目标的同时，尽量减少负面影响。此外，“支座跨度”的维护也是工程师持续关注的问题。随着时间的推移，天气变化、腐蚀和土壤移动等因素可能会影响支座及其支撑的跨度的完整性。定期检查和维护工作对于确保“支座跨度”对公众使用的安全性至关重要。这一工程方面强调了设计中耐久性和韧性的重要性，以及对基础设施持续投资的必要性。总之，“支座跨度”是桥梁设计和土木工程中的一个基本元素。它的影响超越了简单的测量；它涵盖了负载分配、美学、环境影响和长期维护等考虑。随着我们的基础设施不断发展，理解“支座跨度”的复杂性将对工程师创造安全、高效和美丽的结构，以服务于社区数代人至关重要。