initial deflection of derrick

简明释义

吊杆初挠度

英英释义

例句

1.The design specifications included limits for the initial deflection of derrick 起重机的初始偏移 to ensure safety standards were met.

设计规格包括对起重机的初始偏移 initial deflection of derrick的限制，以确保满足安全标准。

2.Engineers calculated the initial deflection of derrick 起重机的初始偏移 to predict how it would behave under stress.

工程师计算了起重机的初始偏移 initial deflection of derrick以预测它在压力下的表现。

3.During the construction phase, engineers monitored the initial deflection of derrick 起重机的初始偏移 to ensure stability.

在施工阶段，工程师监测了起重机的初始偏移 initial deflection of derrick以确保稳定性。

4.Before starting operations, the crew checked the initial deflection of derrick 起重机的初始偏移 to prevent accidents.

在开始操作之前，工作人员检查了起重机的初始偏移 initial deflection of derrick以防止事故发生。

5.The safety report highlighted the importance of measuring the initial deflection of derrick 起重机的初始偏移 before lifting heavy loads.

安全报告强调了在提升重物之前测量起重机的初始偏移 initial deflection of derrick的重要性。

作文

In the field of engineering, particularly in construction and heavy lifting, the term initial deflection of derrick refers to the first observable bending or deviation of a derrick structure from its original position when subjected to load. A derrick is a type of crane that is commonly used for lifting heavy objects, especially in the construction and oil drilling industries. Understanding the initial deflection of derrick is crucial for ensuring the safety and effectiveness of lifting operations.When a derrick is erected, it is designed to withstand various loads, including the weight of the materials being lifted and any environmental factors such as wind. However, even the most robust structures can experience some degree of deflection when they are put under stress. The initial deflection of derrick occurs when the load is first applied, and it is essential to monitor this deflection to prevent structural failure.One of the primary reasons for studying the initial deflection of derrick is to assess the stability of the structure. Engineers must calculate the maximum load that a derrick can handle without exceeding its deflection limits. If a derrick deflects beyond acceptable limits, it may lead to catastrophic failures, resulting in damage to property and potential injuries to workers on site. Therefore, understanding the mechanics behind the initial deflection of derrick allows engineers to design safer and more efficient lifting systems.Moreover, the initial deflection of derrick can be influenced by several factors, including the material properties of the derrick, the configuration of the lifting system, and the environmental conditions at the site. For instance, a derrick made of high-strength steel may exhibit less deflection than one constructed from weaker materials. Similarly, a well-designed lifting mechanism that distributes weight evenly will minimize the initial deflection of derrick, enhancing overall stability.To accurately measure the initial deflection of derrick, engineers often use specialized instruments such as inclinometers or laser measurement tools. These devices provide real-time data on the angle of deflection, allowing operators to make immediate adjustments if necessary. By keeping the initial deflection of derrick within safe limits, crews can carry out their tasks with confidence, knowing that they are operating within the structural capabilities of the equipment.In conclusion, the initial deflection of derrick is a critical concept in the realm of engineering and construction. It not only impacts the safety and performance of lifting operations but also informs the design and maintenance of derricks. As technology advances, the methods for measuring and analyzing the initial deflection of derrick continue to improve, leading to safer and more efficient construction practices. Engineers and operators alike must remain vigilant in monitoring this aspect to ensure the integrity of their lifting systems and the safety of all personnel involved.

在工程领域，特别是在建筑和重物提升中，术语初始偏转的竖井指的是当承受负载时，竖井结构从其原始位置首次可观察到的弯曲或偏离。竖井是一种常用于提升重物的起重机，尤其是在建筑和石油钻探行业。理解初始偏转的竖井对于确保提升操作的安全性和有效性至关重要。当竖井被竖立时，它被设计成能够承受各种负载，包括被提升材料的重量和任何环境因素，如风。然而，即使是最坚固的结构，在承受压力时也会经历一定程度的偏转。初始偏转的竖井发生在负载首次施加时，监测这种偏转对于防止结构故障至关重要。研究初始偏转的竖井的主要原因之一是评估结构的稳定性。工程师必须计算出竖井能够承受的最大负载，而不超过其偏转限制。如果竖井的偏转超出可接受的限制，可能会导致灾难性的故障，造成财产损失和潜在的工人伤亡。因此，理解初始偏转的竖井背后的力学原理，使工程师能够设计更安全和更高效的提升系统。此外，初始偏转的竖井可能受到多个因素的影响，包括竖井的材料特性、提升系统的配置以及现场的环境条件。例如，使用高强度钢材制成的竖井可能表现出比由较弱材料构成的竖井更少的偏转。同样，设计良好的提升机制能够均匀分配重量，将减少初始偏转的竖井，增强整体稳定性。为了准确测量初始偏转的竖井，工程师通常会使用专门的仪器，如倾斜仪或激光测量工具。这些设备提供实时的偏转角度数据，使操作人员能够在必要时立即进行调整。通过将初始偏转的竖井保持在安全范围内，工作人员可以自信地进行任务，知道他们在设备的结构能力范围内操作。总之，初始偏转的竖井是工程和建筑领域的一个关键概念。它不仅影响提升操作的安全性和性能，还为竖井的设计和维护提供了信息。随着技术的进步，测量和分析初始偏转的竖井的方法不断改进，从而导致更安全和更高效的建筑实践。工程师和操作人员都必须保持警惕，监测这一方面，以确保他们的提升系统的完整性和所有参与人员的安全。