nonrecoverable timbering
简明释义
不回收的撑垫木材
英英释义
例句
1.The contractor explained that the use of nonrecoverable timbering is sometimes necessary for safety, which means using 不可回收的木材支撑 to ensure structural integrity.
承包商解释说,有时使用不可回收的木材支撑是出于安全考虑,这意味着使用不可回收的木材支撑以确保结构完整性。
2.During the construction process, the team encountered issues with nonrecoverable timbering, which refers to 不可回收的木材支撑 that could not be reused.
在施工过程中,团队遇到了
3.In the event of a collapse, the nonrecoverable timbering would need to be replaced entirely, as it represents 不可回收的木材支撑 that cannot be salvaged.
如果发生倒塌,不可回收的木材支撑需要完全更换,因为它代表着无法被回收的不可回收的木材支撑。
4.The architect had to account for the costs associated with nonrecoverable timbering in the project budget, meaning 不可回收的木材支撑 would add to the overall expenses.
建筑师必须在项目预算中考虑与不可回收的木材支撑相关的成本,这意味着不可回收的木材支撑将增加整体开支。
5.After reviewing the site conditions, the engineers decided to implement nonrecoverable timbering to support the excavation, indicating 不可回收的木材支撑 was essential for stability.
在审查现场条件后,工程师决定实施不可回收的木材支撑以支持挖掘,这表明不可回收的木材支撑对稳定性至关重要。
作文
In the field of construction and civil engineering, the term nonrecoverable timbering refers to a specific method of supporting excavations or underground structures. This technique involves using timber or wooden supports that are not intended to be removed after the construction process is complete. Instead, these supports are left in place, often becoming part of the final structure or being buried beneath the ground. The use of nonrecoverable timbering can be crucial in various situations, particularly when dealing with unstable soil conditions or in areas where traditional shoring methods may not be feasible.One of the primary advantages of employing nonrecoverable timbering is its ability to provide immediate support during the excavation process. In many cases, excavations can lead to soil collapse or cave-ins, especially in loose or sandy soils. By using timbering that is nonrecoverable, engineers can ensure that the excavation remains stable while work is ongoing. This is particularly important in urban environments where space is limited, and the safety of workers and nearby structures must be prioritized.However, there are also some drawbacks associated with nonrecoverable timbering. One significant concern is the environmental impact. Timber used in construction often comes from forests that may be threatened by deforestation. When timber is used in a nonrecoverable manner, it raises questions about sustainability and responsible resource management. Therefore, it is essential for engineers and construction managers to consider the source of their materials and to explore alternatives that may be more environmentally friendly.Moreover, the cost of nonrecoverable timbering can be a factor in project budgets. While it may provide immediate benefits in terms of safety, the long-term financial implications must be considered. In some cases, the expense of using high-quality timber that will not be recovered can outweigh the benefits it provides during the construction phase. Engineers must conduct thorough cost-benefit analyses to determine whether this method is the best choice for a given project.In conclusion, nonrecoverable timbering serves an essential role in ensuring the stability and safety of excavations in construction projects. While it offers immediate support and protection against soil collapse, it also presents challenges related to environmental sustainability and cost. As the construction industry continues to evolve, it is crucial for professionals to weigh the pros and cons of various methods, including nonrecoverable timbering, to make informed decisions that benefit both their projects and the environment. By doing so, they can contribute to a more sustainable future while still maintaining the integrity and safety of their constructions.
在建筑和土木工程领域,术语非可回收木支撑指的是一种特定的支撑挖掘或地下结构的方法。这种技术涉及使用不打算在施工过程完成后移除的木材或木质支撑。相反,这些支撑被留在原地,通常成为最终结构的一部分或埋在地下。使用非可回收木支撑在各种情况下至关重要,特别是在处理不稳定土壤条件或在传统支撑方法可能不可行的区域。采用非可回收木支撑的主要优点之一是能够在挖掘过程中提供即时支持。在许多情况下,挖掘可能会导致土壤坍塌或塌方,尤其是在松散或沙质土壤中。通过使用不可回收的木支撑,工程师可以确保在工作进行期间挖掘保持稳定。这在城市环境中尤为重要,因为空间有限,必须优先考虑工人和附近建筑物的安全。然而,与非可回收木支撑相关的一些缺点也不容忽视。一个主要的关注点是对环境的影响。用于建筑的木材通常来自可能受到森林砍伐威胁的森林。当木材以不可回收的方式使用时,会引发关于可持续性和负责任资源管理的问题。因此,工程师和建筑经理必须考虑材料的来源,并探索可能更环保的替代方案。此外,非可回收木支撑的成本也可能是项目预算中的一个因素。虽然它在安全方面可能提供即时利益,但必须考虑长期财务影响。在某些情况下,使用高质量的不可回收木材的费用可能超过其在施工阶段所提供的好处。工程师必须进行彻底的成本效益分析,以确定这种方法是否是特定项目的最佳选择。总之,非可回收木支撑在确保建筑项目中挖掘的稳定性和安全性方面发挥着重要作用。虽然它提供了即时支持和防止土壤坍塌的保护,但它也带来了与环境可持续性和成本相关的挑战。随着建筑行业的不断发展,专业人士必须权衡各种方法的利弊,包括非可回收木支撑,以做出有利于其项目和环境的明智决策。通过这样做,他们可以为更可持续的未来做出贡献,同时保持其建筑的完整性和安全性。
