bridging installation

简明释义

1. 桥塞装瞒; 2. 桥堵防砂装瞒;

英英释义

例句

1.The engineers completed the bridging installation to connect the two sections of the highway.

工程师完成了桥接安装以连接高速公路的两部分。

2.During the project, we faced challenges with the bridging installation due to weather conditions.

在项目中，由于天气条件，我们在桥接安装方面遇到了挑战。

3.After the bridging installation, traffic flow improved significantly in the area.

在桥接安装之后，该地区的交通流量显著改善。

4.The bridging installation allowed for a temporary connection while the main structure was being built.

在主结构建设期间，桥接安装提供了一个临时连接。

5.The team conducted tests to ensure the safety of the bridging installation before opening it to the public.

在向公众开放之前，团队进行了测试以确保桥接安装的安全性。

作文

In the realm of engineering and construction, the term bridging installation refers to the process of creating temporary or permanent structures that connect two separate points. This concept is crucial in various fields, including civil engineering, architecture, and transportation. The purpose of a bridging installation can vary significantly depending on the context, but it often serves to facilitate movement, improve accessibility, or enhance safety. For instance, when constructing a new highway over a river, engineers may implement a bridging installation to ensure that vehicles can cross safely without disrupting the natural flow of water. The significance of bridging installation extends beyond mere functionality. It plays a vital role in project management and planning. When designing a bridging installation, engineers must consider factors such as load capacity, environmental impact, and cost efficiency. These considerations are essential for ensuring that the structure not only meets the immediate needs but also aligns with long-term sustainability goals. Moreover, the materials used in a bridging installation can vary widely, from steel and concrete to more innovative solutions like composite materials. Each material brings its own set of advantages and challenges, influencing the overall design and implementation process.In addition to engineering applications, bridging installation can also be relevant in technology and telecommunications. For example, in the context of network infrastructure, a bridging installation might refer to the setup of devices that connect different network segments, allowing for seamless communication and data transfer. This technological perspective highlights the versatility of the term and its applicability across various industries.The execution of a bridging installation project requires collaboration among multiple stakeholders, including engineers, architects, contractors, and local authorities. Effective communication and coordination are essential to address potential challenges that may arise during the installation process. For instance, unexpected geological conditions or regulatory hurdles can delay progress and increase costs. Therefore, thorough planning and risk assessment are integral components of any successful bridging installation project.Furthermore, the impact of a bridging installation on the community should not be overlooked. These structures can significantly alter the landscape and affect local ecosystems. As such, it is crucial to engage with community members and consider their input during the planning stages. Public consultations and environmental assessments can help mitigate negative consequences and foster a sense of ownership among residents.In conclusion, the concept of bridging installation encompasses a wide range of applications and considerations. Whether in the context of construction, technology, or community development, understanding the intricacies of bridging installation is essential for professionals in various fields. By prioritizing effective design, stakeholder collaboration, and environmental stewardship, we can create bridging installations that not only serve their intended purpose but also contribute positively to the communities they inhabit.

在工程和建筑领域，术语bridging installation指的是创建连接两个独立点的临时或永久结构的过程。这个概念在土木工程、建筑和交通等多个领域至关重要。bridging installation的目的因上下文而异，但通常用于促进移动、改善可达性或增强安全性。例如，在一条新高速公路上建造跨越河流时，工程师可能会实施bridging installation，以确保车辆能够安全通行而不干扰水流的自然流动。bridging installation的重要性不仅仅体现在功能性上。它在项目管理和规划中也发挥着重要作用。在设计bridging installation时，工程师必须考虑负载能力、环境影响和成本效益等因素。这些考虑对于确保结构不仅满足即时需求，还与长期可持续发展目标相一致至关重要。此外，bridging installation中使用的材料可能差异很大，从钢材和混凝土到更创新的复合材料。每种材料都有其优缺点，影响整体设计和实施过程。除了工程应用，bridging installation在技术和电信领域也可能相关。例如，在网络基础设施的背景下，bridging installation可能指的是连接不同网络段的设备的设置，从而实现无缝通信和数据传输。这种技术视角突显了该术语的多样性及其在各个行业中的适用性。执行bridging installation项目需要多个利益相关者之间的合作，包括工程师、建筑师、承包商和地方当局。有效的沟通和协调对于解决安装过程中可能出现的潜在挑战至关重要。例如，意外的地质条件或监管障碍可能会延误进度并增加成本。因此，彻底的规划和风险评估是任何成功的bridging installation项目的核心组成部分。此外，bridging installation对社区的影响也不容忽视。这些结构可以显著改变景观并影响当地生态系统。因此，在规划阶段，与社区成员进行互动并考虑他们的意见至关重要。公众咨询和环境评估可以帮助减轻负面影响，并在居民中培养归属感。总之，bridging installation的概念涵盖了广泛的应用和考虑因素。无论是在建筑、技术还是社区发展方面，理解bridging installation的复杂性对于各个领域的专业人士都是必不可少的。通过优先考虑有效的设计、利益相关者的合作和环境保护，我们可以创造出不仅能实现预期目的，而且对其所处社区产生积极贡献的bridging installations。