geodetic construction

简明释义

应力包皮构造

英英释义

例句

1.The surveyors used advanced techniques in geodetic construction to improve the accuracy of their measurements.

测量师们使用先进的技术进行大地测量施工以提高测量的准确性。

2.The project relied heavily on geodetic construction to establish control points across the landscape.

该项目在很大程度上依赖于大地测量施工在整个景观中建立控制点。

3.Understanding geodetic construction principles is crucial for engineers working on large-scale projects.

理解大地测量施工原理对从事大规模项目的工程师至关重要。

4.In urban planning, geodetic construction is essential for laying out building foundations.

在城市规划中，大地测量施工对于奠定建筑基础至关重要。

5.The team focused on geodetic construction to ensure accurate mapping of the new highway.

团队专注于大地测量施工以确保新高速公路的准确测绘。

作文

Geodetic construction is a crucial aspect of modern engineering and architecture. It involves the application of geodesy, which is the science of measuring and understanding the Earth's geometric shape, orientation in space, and gravitational field. This discipline plays an essential role in ensuring that structures are built accurately and can withstand various environmental factors. In this essay, we will explore the significance of geodetic construction (大地测量施工) in contemporary infrastructure development, its methodologies, and its impact on the quality and safety of construction projects.The importance of geodetic construction (大地测量施工) cannot be overstated. As urban areas expand and the demand for accurate and reliable infrastructure increases, the need for precise measurements becomes paramount. Geodetic techniques provide the necessary data for planning and executing construction projects, allowing engineers to create designs that consider the Earth's surface variations and potential geological hazards. Without these measurements, buildings and other structures may be at risk of settling unevenly or failing to meet safety standards.One of the primary methods used in geodetic construction (大地测量施工) is the use of Global Navigation Satellite Systems (GNSS). GNSS technology allows surveyors to obtain accurate position information anywhere on Earth by utilizing signals from satellites. This technology has revolutionized the field of construction by providing real-time data that can be used to guide the placement of foundations, roadways, and other critical elements of a project. The precision offered by GNSS ensures that construction aligns with design specifications, minimizing the risk of costly errors.Another important technique in geodetic construction (大地测量施工) is the use of total stations. These instruments combine electronic theodolites with distance measuring capabilities, enabling surveyors to measure angles and distances simultaneously. Total stations are essential for creating detailed topographic maps that inform construction planning. By accurately mapping the terrain, engineers can identify potential challenges, such as slopes or water drainage issues, before construction begins.Furthermore, geodetic construction (大地测量施工) also encompasses the analysis of subsurface conditions through techniques like ground-penetrating radar (GPR) and seismic surveys. Understanding what lies beneath the surface is critical for determining the appropriate foundation type and depth, especially in areas prone to earthquakes or other geological events. By integrating these geophysical methods into the construction process, engineers can enhance the safety and longevity of structures.The impact of geodetic construction (大地测量施工) extends beyond individual projects; it contributes to the overall efficiency of the construction industry. Accurate geodetic data reduces the likelihood of rework and delays, ultimately saving time and resources. Moreover, it fosters better communication among stakeholders, including architects, engineers, and contractors, as everyone relies on the same precise information.In conclusion, geodetic construction (大地测量施工) is an indispensable component of modern infrastructure development. Its methodologies, grounded in the principles of geodesy, provide the accuracy and reliability necessary for successful construction projects. As technology continues to advance, the role of geodetic construction (大地测量施工) will only become more significant, ensuring that our built environment remains safe, efficient, and sustainable. Understanding and implementing these practices is essential for anyone involved in the fields of engineering and construction, as they lay the foundation for a resilient future.

大地测量施工是现代工程和建筑中的一个关键方面。它涉及到大地测量学的应用，即测量和理解地球几何形状、空间方向和重力场的科学。这个学科在确保结构准确建造并能够承受各种环境因素方面发挥着重要作用。在这篇文章中，我们将探讨大地测量施工在当代基础设施发展中的重要性、其方法论以及对建筑项目质量和安全的影响。大地测量施工的重要性不可低估。随着城市区域的扩展和对准确可靠基础设施需求的增加，对精确测量的需求变得尤为重要。大地测量技术提供了规划和执行建筑项目所需的数据，使工程师能够创建考虑到地球表面变化和潜在地质危害的设计。如果没有这些测量，建筑物和其他结构可能面临不均匀沉降或未能满足安全标准的风险。在大地测量施工中使用的一种主要方法是全球导航卫星系统（GNSS）。GNSS技术通过利用卫星信号，使测量员能够在地球上任何地方获得准确的位置数据。这项技术彻底改变了建筑领域，通过提供可用于指导基础、道路和其他关键元素放置的实时数据，确保施工与设计规格一致，从而最大限度地减少昂贵错误的风险。在大地测量施工中，另一个重要的技术是全站仪的使用。这些仪器将电子经纬仪与距离测量能力结合在一起，使测量员能够同时测量角度和距离。全站仪对于创建详细的地形图至关重要，这些图为建筑规划提供信息。通过准确绘制地形，工程师可以在施工开始之前识别潜在的挑战，例如坡度或排水问题。此外，大地测量施工还包括通过地面穿透雷达（GPR）和地震勘测等技术分析地下条件。了解地下有什么对于确定适当的基础类型和深度至关重要，尤其是在易受地震或其他地质事件影响的地区。通过将这些地球物理方法整合到施工过程中，工程师可以增强结构的安全性和耐久性。大地测量施工的影响不仅限于单个项目；它还促进了建筑行业的整体效率。准确的大地测量数据减少了返工和延误的可能性，最终节省了时间和资源。此外，它促进了利益相关者之间更好的沟通，包括建筑师、工程师和承包商，因为每个人都依赖于相同的精确数据信息。总之，大地测量施工是现代基础设施发展的不可或缺的组成部分。其基于大地测量原则的方法提供了成功建筑项目所需的准确性和可靠性。随着技术的不断进步，大地测量施工的角色将变得更加重要，确保我们所建环境的安全、高效和可持续。理解和实施这些实践对于任何参与工程和建筑领域的人来说都是必不可少的，因为它们为一个有韧性的未来奠定了基础。