beam grillage
简明释义
梁格栅
英英释义
例句
1.The design of the beam grillage allowed for easy access to utilities buried underneath.
该梁格架的设计允许轻松访问埋在下面的公用设施。
2.The architect specified a beam grillage to support the weight of the new structure on soft soil.
建筑师指定使用梁格架来支撑新结构在软土上的重量。
3.In civil engineering, a beam grillage is often employed to distribute loads evenly across a surface.
在土木工程中,梁格架通常用于将荷载均匀分布在表面上。
4.To minimize settlement, we installed a beam grillage beneath the heavy machinery.
为了最小化沉降,我们在重型机械下安装了梁格架。
5.The construction team decided to use a beam grillage for the foundation to ensure stability.
施工团队决定使用梁格架作为基础,以确保稳定性。
作文
The concept of a beam grillage is integral to the field of civil engineering and structural design. A beam grillage refers to a framework made up of beams that are arranged in a grid-like pattern to support loads and distribute forces effectively. This system is particularly useful in scenarios where the ground conditions are weak or variable, as it helps to spread the load over a larger area, thereby minimizing the risk of settlement or failure. In many construction projects, engineers face the challenge of designing foundations that can withstand various loads while ensuring stability and safety. The use of a beam grillage allows for a more efficient design by utilizing the principles of mechanics and material science. For instance, when constructing large buildings or bridges, a well-designed beam grillage can significantly enhance the structure's ability to resist bending and shear forces. By distributing these forces evenly across the beams, the overall integrity of the structure is improved.Moreover, the versatility of a beam grillage makes it applicable in various contexts. It can be used in both shallow and deep foundations, depending on the requirements of the project. In shallow foundations, the beam grillage can be placed directly on the soil surface, while in deep foundations, it may be incorporated into piles or caissons. This adaptability is crucial in modern construction, where site conditions can vary widely.One of the key advantages of using a beam grillage is its ability to reduce differential settlement. Differential settlement occurs when different parts of a structure settle at different rates, which can lead to cracking and structural damage. By employing a beam grillage, engineers can create a more uniform distribution of loads, thus minimizing the risk of differential settlement. This is particularly important in urban areas where buildings are often constructed close to one another, as uneven settling can have serious implications for neighboring structures.Furthermore, the construction of a beam grillage can also be cost-effective. By optimizing the use of materials and reducing the need for extensive excavation or additional support systems, projects can be completed more efficiently. Engineers can select appropriate materials that provide the necessary strength without excessive weight, contributing to a more sustainable approach to construction.In conclusion, the beam grillage is a fundamental component in structural engineering that offers numerous benefits in terms of load distribution, stability, and cost-effectiveness. As the demand for innovative and resilient structures continues to grow, understanding and implementing beam grillage designs will remain essential for engineers and architects alike. The importance of this system cannot be overstated, as it plays a vital role in ensuring the safety and longevity of various constructions around the world.
“梁格架”这一概念在土木工程和结构设计领域中至关重要。“梁格架”是指由一系列以网格状排列的梁组成的框架,用于有效支撑荷载和分配力。这种系统在地面条件较弱或变化多端的情况下特别有用,因为它有助于将荷载分散到更大的面积上,从而降低沉降或失效的风险。在许多建设项目中,工程师面临着设计能够承受各种荷载的基础,同时确保稳定性和安全性的挑战。使用“梁格架”通过利用力学和材料科学的原理,可以实现更高效的设计。例如,在建造大型建筑物或桥梁时,合理设计的“梁格架”可以显著增强结构抵抗弯曲和剪切力的能力。通过将这些力均匀分布到梁上,整体结构的完整性得以改善。此外,“梁格架”的多功能性使其适用于各种环境。在浅基础中,“梁格架”可以直接放置在土壤表面,而在深基础中,它可能会被纳入桩或基础。这种适应性在现代建筑中至关重要,因为现场条件可能差异很大。使用“梁格架”的一个关键优势是其能够减少差异沉降。差异沉降是指结构的不同部分以不同速率沉降,这可能导致裂缝和结构损坏。通过采用“梁格架”,工程师可以创建更均匀的荷载分布,从而最小化差异沉降的风险。这在城市地区尤为重要,因为建筑物通常建得很近,不均匀的沉降可能对邻近结构产生严重影响。此外,“梁格架”的构建也可以具有成本效益。通过优化材料的使用并减少大量挖掘或额外支撑系统的需求,项目可以更高效地完成。工程师可以选择适当的材料,以提供必要的强度而不增加过多重量,从而有助于更可持续的建筑方法。总之,“梁格架”是结构工程中的一个基本组成部分,具有在荷载分配、稳定性和成本效益方面的诸多优点。随着对创新和韧性结构需求的不断增长,理解和实施“梁格架”设计将继续是工程师和建筑师的重要任务。这一系统的重要性不容小觑,因为它在确保全球各类建筑的安全和持久性方面发挥着至关重要的作用。
