perimeter grouting

简明释义

周边管浆

英英释义

例句

1.To enhance stability, the engineers recommended perimeter grouting around the building's base.

为了增强稳定性，工程师建议在建筑物基础周围进行周边灌浆。

2.The contractor used perimeter grouting to prevent ground water from affecting the basement.

承包商使用周边灌浆来防止地下水影响地下室。

3.After detecting soil movement, the site manager ordered perimeter grouting to reinforce the area.

在发现土壤移动后，现场经理下令进行周边灌浆以加固该区域。

4.The construction team applied perimeter grouting to seal the foundation from water ingress.

施工团队进行了周边灌浆以密封基础，防止水渗入。

5.Before starting the excavation, we ensured that perimeter grouting was completed to avoid any issues.

在开始挖掘之前，我们确保完成了周边灌浆以避免任何问题。

作文

In the field of civil engineering and construction, various techniques are employed to ensure the stability and durability of structures. One such technique is perimeter grouting, which plays a crucial role in enhancing the integrity of foundations and underground structures. Perimeter grouting refers to the process of injecting a grout material into the soil or rock surrounding a structure's perimeter. This method is particularly useful in areas where soil conditions are unstable or where there is a risk of water infiltration.The primary purpose of perimeter grouting is to create a barrier that prevents water from entering the foundation area, which can lead to erosion and structural damage over time. By filling voids and fractures in the surrounding soil, this technique helps to stabilize the ground and reduce the potential for settlement or shifting. Additionally, perimeter grouting can improve load-bearing capacity, making it an essential step in the construction of buildings, bridges, and tunnels.One of the significant advantages of perimeter grouting is its versatility. It can be applied in various situations, including new construction projects and the rehabilitation of existing structures. For example, when retrofitting an old building, engineers may use perimeter grouting to strengthen the foundation and extend the life of the structure. This method is also beneficial in areas prone to seismic activity, as it can help mitigate the effects of ground movement on a building's stability.Furthermore, perimeter grouting contributes to environmental protection. By sealing off potential pathways for groundwater contamination, this technique helps safeguard the surrounding ecosystem. In urban areas, where infrastructure is often built close to natural water sources, the importance of perimeter grouting cannot be overstated. It ensures that construction activities do not disrupt local hydrology or lead to pollution.Despite its many benefits, perimeter grouting is not without challenges. The success of this technique largely depends on the quality of the grout used and the expertise of the personnel performing the injection. Poorly executed grouting can lead to uneven pressure distribution and may even exacerbate existing soil issues. Therefore, it is vital for engineers to conduct thorough site assessments and choose appropriate materials for the grouting process.In conclusion, perimeter grouting is an invaluable technique in modern construction and civil engineering. Its ability to enhance structural stability, prevent water infiltration, and protect the environment makes it a critical component of many projects. As technology advances, we can expect to see improvements in grouting materials and methods, further solidifying the role of perimeter grouting in ensuring safe and sustainable construction practices. Understanding and mastering this technique is essential for engineers and construction professionals who aim to deliver high-quality, resilient structures that stand the test of time.

在土木工程和建筑领域，采用各种技术以确保结构的稳定性和耐久性。其中一种技术是周边灌浆，它在增强基础和地下结构的完整性方面发挥着关键作用。周边灌浆是指将浆料注入到围绕结构周边的土壤或岩石中的过程。这种方法在土壤条件不稳定或存在水渗透风险的地区特别有用。周边灌浆的主要目的是创建一个屏障，以防止水进入基础区域，这可能导致侵蚀和结构损坏。通过填补周围土壤中的空隙和裂缝，这种技术有助于稳定地面，减少沉降或位移的潜在风险。此外，周边灌浆可以提高承载能力，使其成为建筑、桥梁和隧道建设中的重要步骤。周边灌浆的一个显著优势是其多功能性。它可以应用于各种情况，包括新建项目和现有结构的修复。例如，在改造旧建筑时，工程师可能会使用周边灌浆来加固基础并延长结构的使用寿命。这种方法在地震活动频繁的地区也很有益，因为它可以帮助减轻地面运动对建筑稳定性的影响。此外，周边灌浆还有助于环境保护。通过封闭潜在的地下水污染路径，这种技术有助于保护周围生态系统。在城市地区，基础设施往往建在靠近自然水源的地方，因此周边灌浆的重要性不容小觑。它确保施工活动不会干扰当地水文或导致污染。尽管有许多好处，周边灌浆也并非没有挑战。这种技术的成功在很大程度上取决于所使用的浆料的质量以及进行注射的人员的专业水平。灌浆执行不当可能导致压力分布不均，甚至可能加剧现有的土壤问题。因此，工程师必须进行彻底的现场评估，并选择适合的材料进行灌浆。总之，周边灌浆是现代建筑和土木工程中不可或缺的技术。它增强结构稳定性、防止水渗透和保护环境的能力使其成为许多项目的关键组成部分。随着技术的进步，我们可以期待看到灌浆材料和方法的改善，进一步巩固周边灌浆在确保安全和可持续建筑实践中的作用。理解和掌握这一技术对于旨在交付高质量、抗久性结构的工程师和建筑专业人士至关重要。