reinforced framing

简明释义

钢筋混凝土结构

英英释义

例句

1.In earthquake-prone areas, reinforced framing is essential for safety.

在地震多发地区，加固框架对安全至关重要。

2.The architect recommended reinforced framing for the new bridge to enhance its stability.

建筑师建议为新桥采用加固框架以增强其稳定性。

3.The contractor used reinforced framing to support the heavy roof structure.

承包商使用加固框架来支撑重型屋顶结构。

4.Using reinforced framing in the design increases the overall durability of the structure.

在设计中使用加固框架可以提高结构的整体耐用性。

5.The construction team implemented reinforced framing to ensure the building could withstand high winds.

施工团队采用了加固框架以确保建筑能够承受强风。

作文

In the world of construction and architecture, the term reinforced framing refers to a structural system that enhances the strength and stability of buildings. This technique involves the use of additional materials or support systems to improve the load-bearing capabilities of a structure. The concept of reinforced framing is crucial in ensuring that buildings can withstand various forces such as wind, earthquakes, and other environmental factors that could compromise their integrity.Traditionally, framing in construction was done using wood or steel, which provided a basic level of support. However, as architectural designs became more ambitious and the demands for taller and more complex structures increased, engineers and architects began to explore ways to enhance these frameworks. This led to the development of reinforced framing techniques, which often incorporate materials like concrete, steel bars, or fibers to create a composite that offers superior strength.One of the most common applications of reinforced framing is in the construction of high-rise buildings. These structures face significant challenges due to their height and the forces they encounter. By utilizing reinforced framing, architects can design buildings that not only reach greater heights but also remain safe and stable. For instance, the use of reinforced concrete beams and columns allows for larger spans between supports, creating open spaces within the building while maintaining structural integrity.Moreover, reinforced framing plays a vital role in seismic design. In earthquake-prone regions, buildings must be able to absorb and dissipate energy to prevent catastrophic failures. Engineers employ reinforced framing techniques to create flexible structures that can sway without collapsing during seismic events. This adaptability is essential in protecting lives and property in areas where earthquakes are a frequent threat.Beyond its practical applications, the aesthetic possibilities offered by reinforced framing cannot be overlooked. With the ability to create thinner walls and larger openings, architects can design buildings that are not only functional but also visually appealing. This combination of beauty and strength has led to iconic structures around the world that showcase the potential of reinforced framing in modern architecture.Sustainability is another important aspect of reinforced framing in contemporary construction. As the industry moves towards greener practices, the materials used in reinforced framing can also contribute to energy efficiency. For example, incorporating recycled materials or designing systems that reduce waste can make a significant impact on a building's overall environmental footprint. In conclusion, the significance of reinforced framing in construction cannot be overstated. It provides the necessary strength and stability for modern structures, particularly in challenging environments. As technology advances and architectural designs evolve, the methods and materials used in reinforced framing will continue to develop, leading to even safer, more efficient, and aesthetically pleasing buildings. Understanding this concept is essential for anyone involved in the fields of architecture and engineering, as it represents a fundamental principle that underpins the safety and functionality of the built environment.

在建筑和建筑学的世界中，短语reinforced framing指的是一种增强建筑物强度和稳定性的结构系统。这种技术涉及使用额外的材料或支撑系统来改善结构的承载能力。reinforced framing的概念对于确保建筑能够承受各种力量（如风、地震和其他可能危及其完整性的环境因素）至关重要。传统上，建筑中的框架是用木材或钢材构建的，这提供了基本的支撑水平。然而，随着建筑设计变得更加雄心勃勃以及对更高、更复杂结构的需求增加，工程师和建筑师开始探索增强这些框架的方法。这导致了reinforced framing技术的发展，这些技术通常结合混凝土、钢筋或纤维等材料，以创建一种复合材料，提供优越的强度。reinforced framing最常见的应用之一是在高层建筑的建设中。这些结构由于其高度和所面临的力量而面临重大挑战。通过利用reinforced framing，建筑师可以设计出不仅能达到更高高度，而且保持安全和稳定的建筑。例如，使用钢筋混凝土梁和柱可以在支撑之间形成更大的跨度，从而在建筑内部创造开放空间，同时保持结构的完整性。此外，reinforced framing在抗震设计中也发挥着至关重要的作用。在地震频发的地区，建筑必须能够吸收和消散能量，以防止灾难性的失败。工程师采用reinforced framing技术来创建灵活的结构，使其在地震事件中可以摇摆而不倒塌。这种适应性在保护生命和财产方面至关重要，尤其是在地震频繁的地区。除了其实际应用之外，reinforced framing所提供的美学可能性也不容忽视。通过能够创造更薄的墙壁和更大的开口，建筑师可以设计出不仅功能性强而且视觉上吸引人的建筑。这种美与力的结合导致了全球范围内标志性结构的出现，展示了现代建筑中reinforced framing的潜力。可持续性是当代建筑中reinforced framing的另一个重要方面。随着行业向绿色实践发展的趋势，reinforced framing中使用的材料也可以促进能源效率。例如，结合回收材料或设计减少废物的系统可以对建筑的整体环保足迹产生重大影响。总之，reinforced framing在建筑中的重要性不容小觑。它为现代结构提供了必要的强度和稳定性，特别是在具有挑战性的环境中。随着技术的进步和建筑设计的发展，reinforced framing中使用的方法和材料将继续发展，导致更加安全、高效和美观的建筑。理解这一概念对于任何参与建筑和工程领域的人来说都是至关重要的，因为它代表了支撑建筑环境安全和功能的基本原则。