deep beam

简明释义

加强横梁

英英释义

例句

1.The use of a deep beam 深梁 can significantly reduce deflection in large structures.

使用深梁 深梁可以显著减少大型结构的挠度。

2.In this bridge construction, the engineers opted for a deep beam 深梁 to support the heavy loads.

在这座桥的施工中，工程师选择了一根深梁 深梁来支撑重负荷。

3.During the inspection, the contractor noted that the deep beam 深梁 was properly reinforced.

在检查过程中，承包商注意到深梁 深梁得到了适当的加固。

4.The deep beam 深梁 allows for wider spans between supports, enhancing the overall aesthetic of the building.

这根深梁 深梁允许支撑之间有更宽的跨度，从而提升了建筑的整体美感。

5.The architect decided to use a deep beam 深梁 in the design to minimize the number of columns needed.

建筑师决定在设计中使用一根深梁 深梁，以减少所需柱子的数量。

作文

In modern engineering and architecture, the design of structures requires a deep understanding of various components that contribute to the stability and strength of buildings. One such component is the deep beam, which plays a crucial role in supporting loads and distributing forces throughout a structure. A deep beam (深梁) is characterized by its significant depth relative to its span, making it particularly effective in carrying heavy loads over long distances without excessive deflection. The use of deep beams (深梁) can be observed in various applications, from bridges to high-rise buildings. Their ability to handle large amounts of weight allows them to be incorporated into designs where traditional beams might fail or require additional support. For example, in the construction of a multi-story parking garage, engineers often opt for deep beams (深梁) to ensure that the structure can support the weight of numerous vehicles while maintaining safety and stability. One of the key advantages of using deep beams (深梁) is their efficiency in material usage. By utilizing a deeper cross-section, engineers can reduce the amount of material needed compared to shallower beams, thus lowering construction costs and minimizing the overall weight of the structure. This is particularly important in areas where reducing the load on foundations is essential, such as in seismic zones or on soft soil. Furthermore, deep beams (深梁) are also beneficial in terms of architectural aesthetics. Their robust appearance can be integrated into the design of a building, providing not only structural integrity but also contributing to the overall visual appeal. Architects often collaborate with engineers to ensure that the incorporation of deep beams (深梁) aligns with the creative vision of the project while adhering to safety standards. However, the design and implementation of deep beams (深梁) come with their own set of challenges. Engineers must carefully consider factors such as the material properties, load distribution, and potential for cracking or deformation under stress. Advanced modeling techniques and software simulations are often employed to predict how a deep beam (深梁) will behave under various conditions, ensuring that the final design meets all necessary requirements. In conclusion, the deep beam (深梁) is an essential element in contemporary structural engineering. Its ability to support significant loads while optimizing material use makes it a preferred choice in many construction projects. As technology continues to advance, the methods for designing and implementing deep beams (深梁) will likely evolve, leading to even more innovative and efficient structures in the future. Understanding the importance and functionality of deep beams (深梁) is vital for anyone involved in the fields of engineering and architecture, as they represent a critical aspect of modern construction techniques.

在现代工程和建筑中，结构设计需要深入理解各种组成部分，这些部分有助于建筑的稳定性和强度。其中一个关键组成部分是深梁，它在支撑荷载和分配结构内的力方面起着至关重要的作用。深梁（deep beam）以其相对于跨度的显著深度为特征，使其在承载重荷时特别有效，能在不出现过度挠曲的情况下跨越较长的距离。深梁（deep beam）的使用可以在各种应用中观察到，从桥梁到高层建筑。它们处理大量重量的能力使得它们能够被纳入设计中，而传统梁可能会失败或需要额外支持。例如，在多层停车场的建设中，工程师通常选择深梁（deep beam），以确保结构能够支撑众多车辆的重量，同时保持安全和稳定。使用深梁（deep beam）的一个主要优点是材料使用的效率。通过利用更深的横截面，工程师可以减少与较浅梁相比所需的材料量，从而降低施工成本并最小化结构的整体重量。这在需要减少基础负荷的地区尤为重要，例如在地震带或软土上。此外，深梁（deep beam）在建筑美学方面也具有优势。它们强壮的外观可以融入建筑设计中，不仅提供结构完整性，还能为整体视觉吸引力做出贡献。建筑师通常与工程师合作，确保深梁（deep beam）的纳入符合项目的创意愿景，同时遵循安全标准。然而，深梁（deep beam）的设计和实施也面临着一系列挑战。工程师必须仔细考虑材料特性、荷载分布以及在应力下开裂或变形的潜在可能性。先进的建模技术和软件模拟通常被用于预测深梁（deep beam）在各种条件下的表现，以确保最终设计满足所有必要要求。总之，深梁（deep beam）是当代结构工程中的一个重要元素。它在支撑重大荷载的同时优化材料使用，使其成为许多建设项目的首选。随着技术的不断进步，设计和实施深梁（deep beam）的方法可能会发展，导致未来更具创新性和效率的结构。理解深梁（deep beam）的重要性和功能，对于任何参与工程和建筑领域的人来说都是至关重要的，因为它们代表了现代建筑技术的关键方面。