embedment length

简明释义

埋置长度

英英释义

例句

1.In seismic design, the embedment length 锚固长度 of the anchor bolts is critical for structural integrity.

在抗震设计中，锚栓的embedment length 锚固长度对结构完整性至关重要。

2.The contractor specified a minimum embedment length 锚固长度 of 12 inches for all foundation piers.

承包商为所有基础柱指定了最低的embedment length 锚固长度为12英寸。

3.To prevent pullout failure, the embedment length 锚固长度 of the rebar must be sufficient.

为了防止拔出失效，钢筋的embedment length 锚固长度必须足够。

4.The engineer calculated the embedment length 锚固长度 required for the foundation to ensure stability.

工程师计算了基础所需的embedment length 锚固长度以确保稳定性。

5.A longer embedment length 锚固长度 can improve the load-bearing capacity of the structure.

更长的embedment length 锚固长度可以提高结构的承载能力。

作文

The concept of embedment length is crucial in various engineering fields, particularly in structural and geotechnical engineering. Understanding embedment length helps engineers design safe and effective structures, ensuring they can withstand the forces they encounter throughout their lifespan. In simple terms, embedment length refers to the depth at which a structural element, such as a pile or anchor, is embedded into the ground or another material. This depth plays a significant role in the stability and load-bearing capacity of the structure.When designing foundations, engineers must consider several factors that influence the required embedment length. These factors include soil type, load characteristics, and environmental conditions. For instance, in sandy soils, a greater embedment length may be necessary to achieve adequate lateral resistance, while in clay soils, the cohesive properties may allow for a shorter embedment. Therefore, thorough soil investigations are essential to determine the appropriate embedment length for a specific project.Moreover, the embedment length also impacts the overall performance of the structure during seismic events. Structures with insufficient embedment length may experience excessive movement or even failure during an earthquake. By ensuring an adequate embedment length, engineers can enhance the resilience of structures against dynamic loads, thereby protecting lives and property.In addition to seismic considerations, the embedment length is vital for resisting uplift forces, which can occur due to wind or other environmental factors. For example, in the case of wind turbines, the foundation's embedment length must be designed to counteract the upward forces generated by strong winds. A deeper embedment length can provide additional stability, reducing the risk of overturning.Furthermore, the construction process itself can be influenced by the chosen embedment length. Longer embedment lengths may require specialized equipment for installation, increasing project costs and timelines. On the other hand, a shorter embedment length might simplify the construction process but could compromise the structure's integrity if not properly evaluated.In conclusion, the concept of embedment length is a fundamental aspect of engineering design. It affects the safety, performance, and cost of structures. Engineers must carefully analyze various factors to determine the optimal embedment length for each project. By doing so, they can ensure that structures are both functional and resilient, capable of withstanding the challenges posed by their environment. Thus, mastering the understanding of embedment length is essential for any engineer involved in the design and construction of foundational elements in civil engineering projects.

“embedment length”的概念在各个工程领域中至关重要，尤其是在结构工程和岩土工程中。理解“embedment length”有助于工程师设计安全有效的结构，确保它们能够在其生命周期内承受所遇到的力量。简单来说，“embedment length”是指结构元素（如桩或锚）嵌入地面或其他材料的深度。这一深度在结构的稳定性和承载能力中起着重要作用。在设计基础时，工程师必须考虑多个影响所需“embedment length”的因素。这些因素包括土壤类型、荷载特性和环境条件。例如，在沙土中，可能需要更大的“embedment length”以达到足够的侧向阻力，而在粘土中，粘聚特性可能允许较短的嵌入。因此，彻底的土壤调查对于确定特定项目的适当嵌入长度至关重要。此外，“embedment length”还影响结构在地震事件中的整体性能。嵌入长度不足的结构在地震期间可能会经历过度移动甚至失败。通过确保适当的“embedment length”，工程师可以增强结构对动态荷载的韧性，从而保护生命和财产。除了地震考虑外，“embedment length”对于抵抗提升力也至关重要，这种力可能由于风或其他环境因素而产生。例如，在风力发电机的情况下，基础的“embedment length”必须设计成抵消强风产生的向上力量。更深的嵌入长度可以提供额外的稳定性，减少翻倒的风险。此外，施工过程本身也可能受到选择的“embedment length”的影响。较长的嵌入长度可能需要专门的设备进行安装，从而增加项目成本和时间表。另一方面，较短的嵌入长度可能简化施工过程，但如果没有经过适当评估，可能会妨碍结构的完整性。总之，“embedment length”的概念是工程设计的基本方面。它影响结构的安全性、性能和成本。工程师必须仔细分析各种因素，以确定每个项目的最佳嵌入长度。通过这样做，他们可以确保结构既功能齐全又具有韧性，能够承受环境带来的挑战。因此，掌握“embedment length”的理解对于任何参与土木工程项目基础元素设计和施工的工程师来说都是至关重要的。