additional bending moment on derrick boom

简明释义

吊杆附加弯矩

英英释义

例句

1.Calculating the additional bending moment on derrick boom is crucial for ensuring structural integrity.

计算derrick boom上的附加弯矩对于确保结构完整性至关重要。

2.The design engineer calculated the additional bending moment on derrick boom to ensure safety under extreme conditions.

设计工程师计算了derrick boom上的附加弯矩以确保在极端条件下的安全。

3.During the lifting operation, the operator noticed an additional bending moment on derrick boom due to unexpected wind forces.

在起重作业中，操作员注意到由于意外的风力，derrick boom上的附加弯矩。

4.The engineers proposed a redesign to accommodate the additional bending moment on derrick boom caused by increased load.

工程师提出重新设计以适应由于增加负载而导致的derrick boom上的附加弯矩。

5.To prevent failure, we need to monitor the additional bending moment on derrick boom regularly.

为了防止故障，我们需要定期监测derrick boom上的附加弯矩。

作文

In the world of engineering, particularly in the construction and maritime industries, the term additional bending moment on derrick boom is crucial for understanding how forces interact with structures. A derrick boom is a type of crane that is used to lift heavy loads, often found on ships or construction sites. The design and functionality of a derrick boom rely heavily on the principles of mechanics, especially when it comes to handling dynamic loads. When a load is lifted by a derrick boom, it does not just exert a vertical force; it also creates moments that can lead to bending. This is where the concept of additional bending moment on derrick boom becomes significant. The additional bending moment refers to the extra stress placed on the boom due to various factors such as wind, the weight of the load, and the angle at which the load is being lifted. Understanding these moments is essential for engineers to ensure the safety and stability of the structure.For instance, when a load is lifted at an angle, the center of gravity shifts, which can introduce unexpected bending moments. If these moments are not accounted for, they can lead to structural failure, resulting in accidents and costly repairs. Therefore, engineers must perform detailed calculations to determine the maximum allowable bending moments for a given derrick boom design. This involves analyzing the materials used in the boom's construction, the expected loads, and the environmental conditions under which the boom will operate.Moreover, the design of a derrick boom must incorporate safety factors that account for these additional bending moments on derrick boom. Engineers often use computer simulations and physical models to predict how the boom will behave under various loading conditions. By doing so, they can identify potential weaknesses in the design and make necessary adjustments before construction begins.Another important aspect to consider is maintenance. Regular inspections of the derrick boom can help identify signs of wear and tear that may affect its ability to handle additional bending moments on derrick boom. Components such as joints, cables, and the boom itself should be checked for any signs of fatigue. Preventive maintenance can extend the life of the equipment and ensure that it operates safely under all conditions.In conclusion, the phrase additional bending moment on derrick boom encapsulates a vital concept in structural engineering. It highlights the importance of understanding the forces at play when lifting heavy loads. By carefully considering these moments during the design phase and through ongoing maintenance, engineers can create safer, more efficient derrick booms that meet the demands of modern construction and maritime operations. As technology continues to advance, the methods for analyzing and mitigating these additional bending moments will only improve, leading to even safer engineering practices in the future.

在工程领域，尤其是在建筑和海事行业，术语derrick boom上的额外弯矩对于理解力学如何与结构相互作用至关重要。derrick boom是一种用于提升重物的起重机，通常在船只或施工现场发现。derrick boom的设计和功能在很大程度上依赖于力学原理，特别是在处理动态负载时。当一个负载被derrick boom提升时，它不仅施加了一个垂直力；它还会产生可能导致弯曲的力矩。这就是derrick boom上的额外弯矩概念变得重要的地方。额外的弯矩是指由于各种因素（如风、负载的重量和负载提升的角度）对boom施加的额外应力。理解这些力矩对于工程师确保结构的安全性和稳定性至关重要。例如，当负载以一个角度被提升时，重心会发生偏移，这可能引入意想不到的弯矩。如果不考虑这些力矩，它们可能导致结构失效，从而造成事故和昂贵的维修。因此，工程师必须进行详细的计算，以确定给定derrick boom设计的最大允许弯矩。这涉及分析用于boom构造的材料、预期的负载以及boom将要操作的环境条件。此外，derrick boom的设计必须包含考虑这些derrick boom上的额外弯矩的安全系数。工程师通常使用计算机模拟和物理模型来预测boom在各种加载条件下的表现。通过这样做，他们可以识别设计中的潜在弱点，并在施工开始之前进行必要的调整。另一个需要考虑的重要方面是维护。定期检查derrick boom可以帮助识别可能影响其处理derrick boom上的额外弯矩能力的磨损迹象。关节、绳索和boom本身等组件应检查是否有疲劳的迹象。预防性维护可以延长设备的使用寿命，并确保其在所有条件下安全运行。总之，短语derrick boom上的额外弯矩概括了结构工程中的一个重要概念。它突出了在提升重物时理解作用力的重要性。通过在设计阶段和持续维护中仔细考虑这些力矩，工程师可以创造出更安全、更高效的derrick boom，以满足现代建筑和海事操作的需求。随着技术的不断进步，分析和减轻这些额外弯矩的方法将只会改善，从而在未来实现更安全的工程实践。