elevation deflection

简明释义

仰角偏差

英英释义

例句

1.The engineer measured the elevation deflection 高程偏差 of the bridge to ensure it met safety standards.

工程师测量了桥的elevation deflection高程偏差以确保其符合安全标准。

2.The software can calculate the elevation deflection 高程偏差 for various structural designs.

该软件可以计算各种结构设计的elevation deflection高程偏差。

3.During the construction, we observed significant elevation deflection 高程偏差 in the foundation.

在施工过程中，我们观察到基础有明显的elevation deflection高程偏差。

4.The report highlighted the elevation deflection 高程偏差 observed after the earthquake.

报告强调了地震后观察到的elevation deflection高程偏差。

5.To comply with regulations, we need to minimize the elevation deflection 高程偏差 in our project.

为了遵守规定，我们需要尽量减少项目中的elevation deflection高程偏差。

作文

In the field of engineering and architecture, understanding the concept of elevation deflection is crucial for ensuring the stability and safety of structures. Elevation deflection refers to the vertical displacement of a point on a structure when it is subjected to loads. This phenomenon can occur due to various factors such as weight, environmental conditions, and material properties. Engineers must take into account elevation deflection when designing buildings, bridges, and other infrastructures to prevent structural failures and ensure longevity.One common example of elevation deflection can be observed in bridges. When vehicles pass over a bridge, the weight of the vehicles causes the bridge to bend slightly. This bending is a form of elevation deflection, and if not properly accounted for, it can lead to significant issues over time. Engineers use specific calculations and materials to minimize elevation deflection so that the bridge remains safe for public use. Another area where elevation deflection plays a critical role is in high-rise buildings. As buildings rise higher, the effects of wind and seismic activity become more pronounced, leading to increased elevation deflection. To counteract this, architects incorporate flexible materials and design techniques that allow the building to sway without compromising its structural integrity. By understanding the mechanics behind elevation deflection, engineers can create safer and more resilient buildings.Furthermore, understanding elevation deflection is not limited to just large structures. Smaller constructions, such as residential homes, also experience elevation deflection. For instance, when heavy snow accumulates on a roof, the additional weight can cause the roof to sag. Homeowners and builders must consider elevation deflection in their designs to avoid potential damage or collapse, especially in regions prone to heavy snowfall.The measurement of elevation deflection is typically performed using precise instruments like laser levels and inclinometers. These tools help engineers monitor the deflection over time, allowing them to make necessary adjustments or repairs before any significant issues arise. Regular maintenance and monitoring are key to managing elevation deflection effectively.In conclusion, the concept of elevation deflection is essential for anyone involved in construction and engineering. It impacts the design, safety, and longevity of structures, from bridges to residential homes. By understanding and addressing elevation deflection, engineers and architects can ensure that their projects are not only functional but also safe for the public. As technology advances, the methods for measuring and mitigating elevation deflection will continue to improve, leading to even safer structures in the future.

在工程和建筑领域，理解elevation deflection的概念对于确保结构的稳定性和安全性至关重要。elevation deflection指的是当结构受到荷载作用时，结构上某一点的垂直位移。这种现象可能由于多种因素引起，例如重量、环境条件和材料属性。工程师在设计建筑、桥梁和其他基础设施时，必须考虑elevation deflection，以防止结构失效并确保其持久性。一个关于elevation deflection的常见例子可以在桥梁中观察到。当车辆通过桥梁时，车辆的重量会导致桥梁轻微弯曲。这种弯曲是一种elevation deflection，如果没有得到适当的考虑，随着时间的推移可能会导致显著的问题。工程师使用特定的计算和材料来最小化elevation deflection，以确保桥梁对公众的安全使用。另一个elevation deflection发挥关键作用的领域是高层建筑。随着建筑物的高度增加，风和地震活动的影响变得更加明显，从而导致elevation deflection增加。为了抵消这一点，建筑师采用灵活的材料和设计技术，使建筑能够摇摆而不损害其结构完整性。通过理解elevation deflection背后的力学原理，工程师可以创造出更安全、更具韧性的建筑。此外，理解elevation deflection不仅限于大型结构。较小的建筑，例如住宅，也会经历elevation deflection。例如，当重雪积聚在屋顶上时，额外的重量可能导致屋顶下沉。房主和建筑商必须在设计中考虑elevation deflection，以避免潜在的损坏或倒塌，特别是在容易出现大雪的地区。elevation deflection的测量通常使用激光水平仪和倾斜仪等精密仪器进行。这些工具帮助工程师监测随时间变化的挠度，使他们能够在出现重大问题之前进行必要的调整或修理。定期维护和监测是有效管理elevation deflection的关键。总之，elevation deflection的概念对任何参与建筑和工程的人来说都是至关重要的。它影响着从桥梁到住宅的结构设计、安全性和持久性。通过理解和解决elevation deflection，工程师和建筑师可以确保他们的项目不仅功能齐全，而且对公众安全。随着技术的进步，测量和减轻elevation deflection的方法将继续改善，从而在未来带来更安全的结构。