hydraulic backfilling

简明释义

水力充填

英英释义

例句

1.The engineers recommended hydraulic backfilling for its efficiency in large-scale projects.

工程师推荐使用液压回填，因为它在大规模项目中效率高。

2.The construction team used hydraulic backfilling to ensure proper compaction of the soil.

施工团队使用液压回填以确保土壤的适当压实。

3.Using hydraulic backfilling can significantly reduce the time needed for site preparation.

使用液压回填可以显著减少场地准备所需的时间。

4.After the excavation, hydraulic backfilling was performed to stabilize the foundation.

挖掘后，进行了液压回填以稳定基础。

5.During the meeting, we discussed the benefits of hydraulic backfilling over traditional methods.

在会议上，我们讨论了液压回填相对于传统方法的优势。

作文

In modern construction and civil engineering, various techniques are employed to ensure the stability and longevity of structures. One such technique that has gained prominence is hydraulic backfilling. This method involves using water to assist in the compaction of soil or other materials that are used to fill in excavated areas. The significance of hydraulic backfilling lies not only in its efficiency but also in its ability to achieve a higher density of the fill material compared to traditional methods.The process begins with the excavation of a site where a foundation or structure will be built. Once the excavation is complete, the next step is to fill the space with suitable material. Traditionally, this would involve manual or mechanical compaction methods, which can be labor-intensive and time-consuming. However, with hydraulic backfilling, the use of water helps to create a slurry that can easily flow into the voids of the excavated area. This slurry is typically composed of soil, sand, and water, mixed in such a way that it can be pumped into the excavation.One of the primary advantages of hydraulic backfilling is that it allows for uniform distribution of the fill material. The fluid nature of the slurry means that it can reach even the most inaccessible corners of the excavation, ensuring that there are no gaps or weak points in the fill. This is particularly important for large-scale projects where the structural integrity of the foundation is paramount.Moreover, hydraulic backfilling can significantly reduce the time required for filling operations. Unlike traditional methods that may require several passes of compacting equipment, the hydraulic method can often complete the task in a fraction of the time. This efficiency translates into cost savings for construction projects, as labor and equipment usage are minimized.In addition to its practical benefits, hydraulic backfilling also has environmental considerations. The method can help to reduce dust and erosion associated with conventional backfilling techniques. Furthermore, by using local materials mixed with water, the carbon footprint of transporting fill material can be reduced. This aligns with the growing trend towards sustainable construction practices.However, it is essential to consider the potential challenges associated with hydraulic backfilling. The technique requires careful management of water content and pressure to prevent issues such as soil liquefaction or instability. Engineers must ensure that the right balance is achieved to maintain the integrity of the surrounding soil and structures. Additionally, local regulations regarding water usage and discharge must be adhered to, which may vary depending on the project location.In conclusion, hydraulic backfilling represents a valuable advancement in construction techniques, offering numerous benefits in terms of efficiency, effectiveness, and environmental impact. As technology continues to evolve, it is likely that this method will become even more refined and widely adopted in the industry. Understanding and implementing hydraulic backfilling can lead to improved construction practices and ultimately, more durable and sustainable infrastructure.

在现代建筑和土木工程中，各种技术被应用于确保结构的稳定性和持久性。其中一种日益受到重视的技术是液压回填。该方法涉及利用水来辅助压实用于填充挖掘区域的土壤或其他材料。液压回填的重要性不仅在于其效率，还在于其能够实现比传统方法更高的填充材料密度。这一过程始于挖掘一个将建造基础或结构的场地。一旦挖掘完成，下一步是用合适的材料填充空间。传统上，这将涉及手动或机械压实方法，这可能是劳动密集型且耗时的。然而，通过液压回填，利用水的作用可以创建一种浆料，这种浆料可以轻松流入挖掘区域的空隙。该浆料通常由土壤、沙子和水组成，以这样的方式混合，以便能够被泵送到挖掘中。液压回填的主要优点之一是它允许填充材料的均匀分布。浆料的流体特性意味着它可以到达挖掘的最偏远角落，确保填充物没有间隙或弱点。这对于大型项目尤为重要，因为基础的结构完整性至关重要。此外，液压回填可以显著减少填充操作所需的时间。与传统方法可能需要多次通过压实设备相比，液压方法通常可以在更短的时间内完成任务。这种效率转化为建筑项目的成本节约，因为劳动和设备使用量减少。除了实用的好处外，液压回填还具有环境方面的考虑。该方法可以帮助减少与传统回填技术相关的灰尘和侵蚀。此外，通过使用当地材料与水混合，可以减少运输填充材料的碳足迹。这与日益增长的可持续建筑实践趋势相一致。然而，需要考虑与液压回填相关的潜在挑战。该技术需要对水分和压力进行仔细管理，以防止土壤液化或不稳定等问题。工程师必须确保达到正确的平衡，以保持周围土壤和结构的完整性。此外，必须遵守与水使用和排放相关的地方法规，这可能因项目地点而异。总之，液压回填代表了建筑技术的宝贵进步，在效率、有效性和环境影响方面提供了众多好处。随着技术的不断发展，这种方法可能会变得更加精细和广泛应用于行业。理解和实施液压回填可以改善建筑实践，并最终带来更耐用和可持续的基础设施。