inclination of building slip
简明释义
船台坡度
英英释义
例句
1.The construction team adjusted the foundation to reduce the inclination of building slip observed on site.
施工队调整了基础,以减少现场观察到的建筑滑移的倾斜度。
2.Surveyors use specialized equipment to measure the inclination of building slip accurately.
测量员使用专业设备来精确测量建筑滑移的倾斜度。
3.To prevent accidents, it's crucial to monitor the inclination of building slip regularly.
为了防止事故,定期监测建筑滑移的倾斜度是至关重要的。
4.The engineer noted the inclination of building slip during the inspection, which indicated potential structural issues.
工程师在检查中注意到建筑滑移的倾斜度,这表明可能存在结构问题。
5.An excessive inclination of building slip can lead to severe damage and costly repairs.
过大的建筑滑移的倾斜度可能导致严重损坏和高昂的维修费用。
作文
The concept of inclination of building slip refers to the angle or degree at which a building may shift or slide from its original position due to various factors such as soil erosion, seismic activity, or poor construction practices. Understanding this phenomenon is essential for architects, engineers, and urban planners to ensure the safety and stability of structures. In recent years, with the increasing frequency of natural disasters, the importance of addressing the inclination of building slip has become more apparent. When a building is constructed, it is crucial to assess the ground conditions and the potential risks associated with the site. Factors such as soil type, moisture content, and the presence of underground water can significantly influence the stability of a structure. For instance, clayey soils tend to expand and contract with moisture changes, which can lead to uneven settling and an increased risk of inclination of building slip. Therefore, thorough geological surveys and soil tests should be conducted before construction begins. Moreover, the design of a building plays a vital role in mitigating the risks associated with inclination of building slip. Engineers must consider the weight distribution of the structure, the materials used, and the architectural style to create a stable foundation. For example, buildings with a low center of gravity are less likely to experience significant shifts compared to taller, narrower structures. Additionally, incorporating features such as retaining walls and drainage systems can help manage water runoff and reduce soil erosion, further decreasing the likelihood of a building slipping. In urban areas, where space is limited, the issue of inclination of building slip becomes even more critical. Skyscrapers and high-rise buildings often face unique challenges due to their height and the weight they impose on the ground. As cities continue to grow and develop, it is imperative that engineers and city planners work together to create safe and sustainable environments. This includes implementing strict building codes and regulations that address the potential risks of inclination of building slip. Furthermore, ongoing monitoring and maintenance of existing structures are essential to prevent incidents related to inclination of building slip. Technologies such as ground-penetrating radar and inclinometers can be used to detect any shifts in the foundation or surrounding soil. By identifying problems early on, necessary repairs can be made before they escalate into more significant issues. In conclusion, the inclination of building slip is a critical factor in the field of construction and urban planning. By understanding the causes and implications of this phenomenon, professionals can take proactive measures to ensure the safety and longevity of buildings. As we face the challenges of climate change and urbanization, prioritizing the stability of our structures will be essential for protecting lives and investments. It is a collective responsibility that requires collaboration among engineers, architects, and policymakers to create resilient communities that can withstand the test of time.
建筑滑移的倾斜度(inclination of building slip)是指由于土壤侵蚀、地震活动或施工不当等各种因素,建筑物可能从其原始位置转移或滑动的角度或程度。理解这一现象对建筑师、工程师和城市规划者至关重要,以确保结构的安全和稳定。近年来,随着自然灾害频率的增加,解决建筑滑移倾斜度的问题的重要性变得更加明显。在建筑物建造时,评估地面条件和与场地相关的潜在风险至关重要。土壤类型、湿度含量以及地下水的存在等因素都可能显著影响结构的稳定性。例如,粘土土壤在湿度变化时往往会膨胀和收缩,这可能导致不均匀沉降,并增加建筑物滑移倾斜度的风险。因此,在施工开始之前,应进行彻底的地质勘查和土壤测试。此外,建筑设计在减轻建筑滑移倾斜度风险方面也起着至关重要的作用。工程师必须考虑结构的重量分布、所用材料和建筑风格,以创建稳定的基础。例如,重心较低的建筑物相比于较高、较窄的结构更不容易经历显著的位移。此外,结合挡土墙和排水系统等特征可以帮助管理水流并减少土壤侵蚀,从而进一步降低建筑物滑移的可能性。在空间有限的城市地区,建筑滑移倾斜度的问题变得更加关键。摩天大楼和高层建筑由于其高度和对地面的重量施加,常常面临独特的挑战。随着城市的不断增长和发展,工程师和城市规划者必须共同努力,创造安全和可持续的环境。这包括实施严格的建筑规范和法规,以应对建筑滑移倾斜度的潜在风险。此外,持续监测和维护现有结构对于防止与建筑滑移倾斜度相关的事件至关重要。诸如地面穿透雷达和倾斜仪等技术可以用于检测基础或周围土壤的任何位移。通过及早识别问题,可以在问题升级为更重大问题之前进行必要的修复。总之,建筑滑移的倾斜度(inclination of building slip)是建筑和城市规划领域的一个关键因素。通过理解这一现象的原因和影响,专业人士可以采取主动措施,确保建筑的安全和耐久性。随着我们面临气候变化和城市化的挑战,优先考虑我们结构的稳定性将对于保护生命和投资至关重要。这是一个需要工程师、建筑师和政策制定者之间合作的共同责任,以创造能够经受时间考验的韧性社区。
