basal excavation

简明释义

基部凹陷;

英英释义

例句

1.The depth of the basal excavation will depend on the type of structure being built.

在基底挖掘的深度将取决于所建结构的类型。

2.During the basal excavation, we discovered some unexpected rock formations that required additional equipment.

在基底挖掘过程中，我们发现了一些意想不到的岩石构造，需要额外的设备。

3.Proper drainage must be considered during the basal excavation to prevent water accumulation.

在基底挖掘过程中，必须考虑适当的排水，以防止水积聚。

4.The construction team started the project with a thorough basal excavation, which is crucial for laying a strong foundation.

施工团队以彻底的基底挖掘开始项目，这对打下坚固的基础至关重要。

5.Safety measures are essential during the basal excavation to protect workers from potential hazards.

在基底挖掘过程中，安全措施对于保护工人免受潜在危险至关重要。

作文

The process of construction and engineering often involves various techniques to ensure stability and safety. One such technique is known as basal excavation, which refers to the removal of soil or rock from the base of a structure to create a solid foundation. This method is crucial in preparing the site for building, as it allows engineers to assess the underlying materials and make necessary adjustments before proceeding with the construction. basal excavation plays a vital role in ensuring that the weight of the structure is evenly distributed, thereby preventing future settlement or structural failure.When undertaking basal excavation, several factors must be considered. First, the type of soil present at the site can significantly impact the excavation process. For instance, sandy soils may require different handling techniques compared to clayey soils, which can retain water and become unstable when disturbed. Engineers must conduct thorough geological surveys to determine the best approach to excavation based on the soil composition.Additionally, the depth of the basal excavation is another critical factor. Depending on the design of the structure, the excavation may need to reach specific depths to ensure adequate support. For example, taller buildings often require deeper excavations to provide a stable base, while smaller structures may only need shallow excavations. This precision is essential to maintain the integrity of the building and to prevent any potential hazards during and after construction.Safety is also a paramount concern during the basal excavation process. Workers must be trained to recognize potential risks, such as cave-ins or equipment malfunctions. Proper safety protocols, including the use of protective gear and the implementation of shoring systems, are vital to safeguard workers on-site. Construction companies often prioritize safety training to minimize accidents and ensure that all personnel are aware of the risks involved in excavation work.Furthermore, environmental considerations must be taken into account during basal excavation. Excavating land can disrupt local ecosystems, and it is essential to implement measures to mitigate these impacts. For instance, sediment control measures may be necessary to prevent soil erosion and protect nearby water bodies from contamination. By adhering to environmental regulations and best practices, construction firms can minimize their ecological footprint while still achieving their project goals.In conclusion, basal excavation is a fundamental aspect of construction that requires careful planning and execution. It involves more than just digging; it encompasses understanding soil types, determining appropriate depths, ensuring worker safety, and considering environmental impacts. As the construction industry continues to evolve, innovative techniques and technologies will likely enhance the efficiency and safety of basal excavation processes. Ultimately, a well-executed basal excavation lays the groundwork for successful construction projects, ensuring that structures are built on solid foundations that will stand the test of time.

建筑和工程的过程常常涉及各种技术，以确保稳定性和安全性。其中一种技术被称为基底挖掘，指的是从结构基础中移除土壤或岩石，以创建一个坚固的基础。这种方法在准备建筑工地时至关重要，因为它使工程师能够评估基础材料，并在继续施工之前进行必要的调整。基底挖掘在确保结构重量均匀分布方面发挥着重要作用，从而防止未来的沉降或结构失效。在进行基底挖掘时，必须考虑几个因素。首先，现场土壤的类型会显著影响挖掘过程。例如，沙土可能需要与粘土不同的处理技术，后者在扰动时可能会保持水分并变得不稳定。工程师必须进行彻底的地质调查，以根据土壤成分确定最佳的挖掘方法。此外，基底挖掘的深度也是一个关键因素。根据结构设计，挖掘可能需要达到特定的深度以确保足够的支撑。例如，更高的建筑通常需要更深的挖掘，以提供稳定的基础，而较小的结构可能只需要浅层挖掘。这种精确性对于保持建筑物的完整性以及防止施工期间和之后的潜在危险至关重要。安全也是基底挖掘过程中至关重要的关注点。工人必须接受培训，以识别潜在风险，例如塌方或设备故障。正确的安全协议，包括使用保护装备和实施支撑系统，对于保护现场工人至关重要。建筑公司通常优先考虑安全培训，以减少事故发生，并确保所有人员都了解挖掘工作中涉及的风险。此外，在基底挖掘过程中还必须考虑环境因素。挖掘土地可能会干扰当地生态系统，因此实施减轻这些影响的措施至关重要。例如，可能需要采取沉积控制措施以防止土壤侵蚀，并保护附近水体免受污染。通过遵守环境法规和最佳实践，建筑公司可以在实现项目目标的同时，尽量减少其生态足迹。总之，基底挖掘是建筑的基本方面，需要仔细的规划和执行。它不仅仅是挖掘；它还包括了解土壤类型、确定适当的深度、确保工人安全以及考虑环境影响。随着建筑行业的不断发展，创新技术和方法可能会提高基底挖掘过程的效率和安全性。最终，成功执行的基底挖掘为建筑项目奠定了基础，确保结构建立在坚固的基础上，经得起时间的考验。