non-recoverable timbering

简明释义

不回收的撑垫木材

英英释义

例句

1.The team estimated that the non-recoverable timbering would take a significant portion of the budget.

团队估计，不可回收的木材支撑将占用预算的很大一部分。

2.The contractor warned that the use of non-recoverable timbering would increase the overall project cost.

承包商警告说，使用不可回收的木材支撑将增加整体项目成本。

3.The construction project faced delays due to the unexpected costs associated with non-recoverable timbering.

由于与不可回收的木材支撑相关的意外费用，该建筑项目面临延误。

4.Due to safety regulations, we had to implement non-recoverable timbering in the excavation area.

由于安全规定，我们不得不在挖掘区域实施不可回收的木材支撑。

5.In our budget report, we need to account for non-recoverable timbering expenses that cannot be reclaimed.

在我们的预算报告中，我们需要考虑无法收回的不可回收的木材支撑费用。

作文

In the realm of construction and civil engineering, various techniques and materials are employed to ensure the stability and durability of structures. One such technique that has garnered attention is non-recoverable timbering. This term refers to a specific method of supporting excavations and underground works using timber that cannot be reused after its initial application. Unlike traditional timbering methods, which allow for the recovery and reuse of materials, non-recoverable timbering involves the installation of timber supports that are intended to remain in place permanently or until the completion of a project, after which they are typically left behind. The primary advantage of non-recoverable timbering is its ability to provide immediate and robust support to unstable soil conditions during excavation. When engineers encounter soft or loose soil, which can pose significant risks during construction, they may opt for this method to ensure safety. The use of non-recoverable timbering allows for rapid deployment and can prevent collapses that could endanger workers and equipment. However, the use of non-recoverable timbering also comes with its own set of challenges. One major concern is the environmental impact associated with cutting down trees for timber that will ultimately be discarded. As sustainability becomes increasingly important in construction practices, the demand for alternatives to non-recoverable timbering has grown. Engineers and architects are now exploring innovative solutions such as engineered wood products or even synthetic materials that can provide similar structural support without the need for permanent timber installations. Additionally, the cost implications of non-recoverable timbering can be significant. Since the timber used cannot be reused, projects may incur higher material costs compared to other methods where timber can be recovered and repurposed. This financial consideration often leads project managers to weigh the benefits of immediate structural support against the long-term costs associated with non-recoverable materials. Moreover, the choice of using non-recoverable timbering can be influenced by the specific requirements of a project. For instance, in urban environments where space is limited and time is of the essence, the quick installation of timber supports can be a deciding factor. In contrast, in rural or less time-sensitive projects, the focus may shift towards more sustainable and recoverable options. In conclusion, non-recoverable timbering serves as a vital tool in the construction industry, particularly in situations where immediate support is necessary. While it offers distinct advantages in terms of safety and efficiency, the environmental and economic implications cannot be overlooked. As the industry continues to evolve, the balance between effective construction techniques and sustainable practices will be essential. By understanding the role and limitations of non-recoverable timbering, engineers and builders can make informed decisions that align with both project goals and environmental stewardship.

在建筑和土木工程领域，各种技术和材料被用于确保结构的稳定性和耐久性。其中一种引起关注的技术是不可回收的支撑木材。这个术语指的是一种特定的支持挖掘和地下工程的方法，使用的木材在初次应用后无法重复使用。与传统的支撑方法不同，传统方法允许材料的回收和重复使用，而不可回收的支撑木材涉及安装旨在永久留在原地或直到项目完成后通常被遗弃的木材支撑。不可回收的支撑木材的主要优点是能够在挖掘过程中为不稳定的土壤条件提供即时且稳固的支持。当工程师遇到软或松散的土壤时，这可能在施工中构成重大风险，他们可能会选择这种方法以确保安全。使用不可回收的支撑木材可以快速部署，并可以防止可能危及工人和设备的坍塌。然而，使用不可回收的支撑木材也带来了一系列挑战。一个主要的担忧是与砍伐树木以获取最终将被丢弃的木材相关的环境影响。随着可持续性在建筑实践中变得越来越重要，对替代不可回收的支撑木材的需求也在增长。工程师和建筑师现在正在探索创新解决方案，例如工程木产品或甚至合成材料，这些材料可以提供类似的结构支持，而无需永久安装木材。此外，不可回收的支撑木材的成本问题也可能是显著的。由于所用木材无法重复使用，项目可能会面临比其他可以回收和再利用木材的方法更高的材料成本。这一财务考虑常常使项目经理在权衡即时结构支持的好处与与不可回收材料相关的长期成本之间进行抉择。此外，使用不可回收的支撑木材的选择可能受到项目具体要求的影响。例如，在空间有限且时间至关重要的城市环境中，快速安装木材支撑可能是一个决定因素。相反，在农村或不那么紧迫的项目中，重点可能转向更可持续和可回收的选项。总之，不可回收的支撑木材在建筑行业中作为一种重要工具，特别是在需要立即支持的情况下。虽然它在安全性和效率方面提供了明显的优势，但环境和经济影响也不能被忽视。随着行业的不断发展，在有效的建筑技术和可持续实践之间保持平衡将是至关重要的。通过理解不可回收的支撑木材的作用和局限性，工程师和建筑商可以做出符合项目目标和环境管理的明智决策。