limber kentledge

简明释义

船底固定压载铁块

英英释义

例句

1.The engineers decided to use limber kentledge to stabilize the structure during construction.

工程师决定使用灵活的重物来在施工期间稳定结构。

2.The team used limber kentledge to counteract the forces acting on the bridge during high winds.

团队使用灵活的重物来抵消高风速下作用于桥梁的力量。

3.During the testing phase, they placed limber kentledge at various points to assess the structural integrity.

在测试阶段，他们在不同点放置了灵活的重物以评估结构的完整性。

4.In marine engineering, limber kentledge is often employed to ensure the stability of floating platforms.

在海洋工程中，灵活的重物通常用于确保浮动平台的稳定性。

5.The project required the use of limber kentledge to adjust the balance of the heavy machinery.

该项目需要使用灵活的重物来调整重型机械的平衡。

作文

In the field of engineering and construction, various terms are used to describe specific materials and techniques. One such term is limber kentledge, which refers to a type of ballast that is used to stabilize structures during construction. This term combines two concepts: 'limber,' which suggests flexibility or adaptability, and 'kentledge,' a term derived from the practice of using heavy weights to counteract forces acting on a structure. Understanding limber kentledge is essential for engineers who aim to ensure the safety and stability of their projects.The use of limber kentledge is particularly important in situations where traditional methods of anchoring might not be feasible. For instance, when constructing offshore platforms, engineers often face challenges due to the unpredictable nature of water currents and waves. In such scenarios, limber kentledge can provide the necessary weight and stability without the need for permanent fixtures that could be compromised by environmental factors.Moreover, the adaptability implied by the term 'limber' highlights the importance of being able to adjust the placement and amount of kentledge as conditions change. For example, if a construction site experiences unexpected soil shifts or weather changes, the ability to modify the limber kentledge allows engineers to respond quickly and maintain structural integrity.Another advantage of using limber kentledge is its efficiency in terms of cost and time. Traditional anchoring methods often require extensive groundwork and materials, leading to increased project timelines and expenses. In contrast, limber kentledge can be deployed more rapidly, allowing projects to proceed without significant delays. This efficiency is especially critical in today's fast-paced construction environment, where time is often equated with money.Furthermore, the use of limber kentledge aligns with modern engineering principles that emphasize sustainability and minimal environmental impact. By utilizing heavy weights instead of invasive anchoring techniques, engineers can reduce disruption to the surrounding ecosystem. This approach not only helps preserve the natural landscape but also adheres to increasingly stringent environmental regulations that govern construction practices.In conclusion, the concept of limber kentledge plays a vital role in contemporary engineering and construction. Its combination of flexibility and stability makes it an invaluable tool for engineers facing the challenges of modern construction projects. As the industry continues to evolve, understanding and effectively implementing limber kentledge will be crucial for ensuring safe, efficient, and environmentally friendly construction practices. By embracing innovative techniques like limber kentledge, engineers can navigate the complexities of their work while contributing to the advancement of the field as a whole.

在工程和建筑领域，使用各种术语来描述特定的材料和技术。其中一个术语是limber kentledge，它指的是一种用于在施工过程中稳定结构的压载物。这一术语结合了两个概念：“limber”表示灵活性或适应性，而“kentledge”则源于使用重物来抵消作用于结构的力的做法。理解limber kentledge对工程师至关重要，他们旨在确保项目的安全性和稳定性。在传统锚固方法可能不可行的情况下，使用limber kentledge尤为重要。例如，在建造海上平台时，工程师常常面临由于水流和波浪的不可预测性而带来的挑战。在这种情况下，limber kentledge可以提供必要的重量和稳定性，而无需依赖可能因环境因素而受到影响的永久性固定装置。此外，“limber”所暗示的适应性强调了能够根据条件变化调整kentledge的位置和数量的重要性。例如，如果施工现场发生意外的土壤移动或天气变化，修改limber kentledge的能力使工程师能够迅速响应并维持结构完整性。使用limber kentledge的另一个优点是其在成本和时间方面的效率。传统的锚固方法通常需要大量的基础工作和材料，从而导致项目时间表和费用增加。相比之下，limber kentledge可以更快速地部署，使项目能够在没有重大延误的情况下进行。这种效率在当今快节奏的建筑环境中尤为关键，因为时间往往与金钱挂钩。此外，使用limber kentledge与现代工程原则相一致，这些原则强调可持续性和对环境影响的最小化。通过利用重物而不是侵入性的锚固技术，工程师可以减少对周围生态系统的干扰。这种方法不仅有助于保护自然景观，还遵循日益严格的环境法规，这些法规规范了建筑实践。总之，limber kentledge的概念在当代工程和建筑中发挥着至关重要的作用。它的灵活性和稳定性的结合使其成为工程师面对现代建筑项目挑战时的宝贵工具。随着行业的不断发展，理解和有效实施limber kentledge对于确保安全、高效和环保的建筑实践至关重要。通过采用像limber kentledge这样的创新技术，工程师可以驾驭工作中的复杂性，同时为整个领域的进步作出贡献。