excavation depth

简明释义

挖掘深度

英英释义

例句

1.Safety measures must be taken when working at a significant excavation depth 挖掘深度.

在较大挖掘深度 挖掘深度 工作时，必须采取安全措施。

2.The excavation depth 挖掘深度 for the foundation should be at least 1.5 meters.

基础的挖掘深度 挖掘深度 应至少为1.5米。

3.Before starting the project, we need to measure the excavation depth 挖掘深度 accurately.

在开始项目之前，我们需要准确测量挖掘深度 挖掘深度 。

4.The contractor must ensure that the excavation depth 挖掘深度 is compliant with local regulations.

承包商必须确保挖掘深度 挖掘深度 符合当地法规。

5.The excavation depth 挖掘深度 affects the stability of the surrounding soil.

挖掘深度 挖掘深度 会影响周围土壤的稳定性。

作文

Excavation is a crucial process in construction and engineering, involving the removal of earth to create foundations, trenches, or other structures. One of the most significant factors that engineers and construction workers must consider during this process is the excavation depth. The term excavation depth refers to the vertical distance from the original ground level to the bottom of the excavation site. Understanding the excavation depth is essential for several reasons, including safety, structural integrity, and compliance with local regulations.Firstly, safety is a primary concern when it comes to determining the excavation depth. Deeper excavations can pose various risks, such as cave-ins, which can be fatal for workers. Therefore, it is vital to assess the soil conditions and choose an appropriate excavation depth based on these factors. For example, soft or loose soil may require a shallower excavation depth to ensure stability, while firmer soil could allow for deeper excavations. Additionally, protective measures such as shoring or sloping may be necessary to prevent accidents during the excavation process.Secondly, the excavation depth directly impacts the structural integrity of the building or infrastructure being constructed. If the excavation is not deep enough, it can lead to inadequate support for the structure, resulting in settling or even collapse over time. On the other hand, excavating too deep can also cause problems, such as increased costs and potential damage to underground utilities or water tables. Therefore, engineers must carefully calculate the required excavation depth based on the design specifications and environmental factors to ensure the long-term stability of the project.Moreover, local regulations often dictate the maximum allowable excavation depth for construction projects. These regulations are put in place to protect both workers and the surrounding environment. Before beginning any excavation work, contractors must consult local building codes and obtain the necessary permits. Failure to comply with these regulations can result in fines, project delays, and even legal action. Thus, understanding the legal implications of excavation depth is crucial for any construction project.In addition to these practical considerations, the excavation depth also plays a role in the overall cost of a construction project. Deeper excavations typically require more labor, equipment, and materials, which can significantly increase the project's budget. Therefore, project managers must balance the need for an adequate excavation depth with the financial constraints of the project. This requires careful planning and consultation with engineers and financial experts to determine the most cost-effective approach.Finally, advancements in technology have made it easier to measure and manage excavation depth accurately. Tools such as laser levels, GPS, and drones can provide precise measurements, allowing for more efficient and safer excavation processes. By utilizing these technologies, construction teams can ensure that they achieve the desired excavation depth without unnecessary delays or complications.In conclusion, the concept of excavation depth is integral to the success of any construction project. It encompasses various factors, including safety, structural integrity, regulatory compliance, cost management, and technological advancements. By understanding and properly managing the excavation depth, construction professionals can minimize risks and ensure the successful completion of their projects. As the construction industry continues to evolve, the importance of accurately determining and maintaining the appropriate excavation depth will remain a fundamental aspect of safe and effective engineering practices.

挖掘是建筑和工程中至关重要的过程，涉及到土壤的移除以创建基础、沟渠或其他结构。在这个过程中，工程师和建筑工人必须考虑的最重要因素之一就是挖掘深度。术语挖掘深度指的是从原始地面水平到挖掘现场底部的垂直距离。理解挖掘深度对多个方面至关重要，包括安全性、结构完整性和遵守当地法规。首先，安全是确定挖掘深度时的首要关注点。较深的挖掘可能会带来各种风险，例如塌方，这对工人来说可能是致命的。因此，评估土壤条件并根据这些因素选择合适的挖掘深度至关重要。例如，松软或疏松的土壤可能需要较浅的挖掘深度以确保稳定，而坚硬的土壤则可能允许更深的挖掘。此外，可能需要采取保护措施，如支撑或倾斜，以防止在挖掘过程中发生事故。其次，挖掘深度直接影响所建建筑或基础设施的结构完整性。如果挖掘不够深，可能导致对结构的支持不足，最终导致沉降甚至倒塌。另一方面，挖掘过深也可能导致问题，例如成本增加和潜在的地下公用设施或水位受损。因此，工程师必须根据设计规范和环境因素仔细计算所需的挖掘深度，以确保项目的长期稳定性。此外，当地法规通常规定了建筑项目允许的最大挖掘深度。这些法规旨在保护工人和周围环境。在开始任何挖掘工作之前，承包商必须咨询当地建筑规范并获得必要的许可证。未能遵守这些法规可能导致罚款、项目延误甚至法律诉讼。因此，理解挖掘深度的法律影响对任何建筑项目都至关重要。除了这些实际考虑之外，挖掘深度还在建筑项目的总体成本中发挥作用。较深的挖掘通常需要更多的劳动力、设备和材料，这可能显著增加项目预算。因此，项目经理必须在满足适当挖掘深度的需求与项目的财务限制之间取得平衡。这需要与工程师和财务专家进行仔细规划和咨询，以确定最具成本效益的方法。最后，技术的进步使得准确测量和管理挖掘深度变得更加容易。激光水平仪、GPS和无人机等工具可以提供精确的测量，从而实现更高效和更安全的挖掘过程。通过利用这些技术，建筑团队可以确保他们达到所需的挖掘深度，而不会出现不必要的延误或复杂情况。总之，挖掘深度的概念对任何建筑项目的成功至关重要。它涵盖了多个因素，包括安全性、结构完整性、法规遵从、成本管理和技术进步。通过理解和妥善管理挖掘深度，建筑专业人士可以最大限度地降低风险，确保项目的成功完成。随着建筑行业的不断发展，准确确定和保持适当的挖掘深度的重要性将始终是安全和有效工程实践的基本方面。