ribbed stiffener

简明释义

加劲肋

英英释义

例句

1.The design of the panel included a ribbed stiffener to prevent warping.

面板的设计中包含了一个肋条加劲件以防止变形。

2.To improve the load-bearing capacity, we installed a ribbed stiffener along the beam.

为了提高承载能力，我们在梁上安装了一个肋条加劲件。

3.The engineer recommended using a ribbed stiffener for added strength in the structure.

工程师建议使用肋条加劲件以增强结构的强度。

4.Using a ribbed stiffener can significantly reduce vibrations in the framework.

使用肋条加劲件可以显著减少框架中的振动。

5.The ribbed stiffener was crucial for maintaining the integrity of the ship's hull.

该肋条加劲件对于保持船体的完整性至关重要。

作文

In the field of engineering and architecture, structural integrity is paramount. One of the essential components that contribute to this integrity is the use of various types of reinforcements. Among these reinforcements, the ribbed stiffener plays a crucial role in enhancing the strength and rigidity of structures. A ribbed stiffener (肋骨加劲肋) is a type of structural element characterized by its rib-like formations that provide additional support to beams, plates, and shells. These stiffeners are typically made from materials such as steel or reinforced concrete and are designed to withstand significant loads while minimizing deformation. The primary function of a ribbed stiffener is to distribute loads more evenly across a structure. When a load is applied to a beam or plate, it can cause bending or buckling. The introduction of a ribbed stiffener helps to counteract these effects by providing extra resistance against deformation. This is particularly important in large-scale constructions, such as bridges and high-rise buildings, where the forces acting on the structure can be substantial. By incorporating ribbed stiffeners, engineers can ensure that the structure remains stable and safe under varying loads.In addition to their load-bearing capabilities, ribbed stiffeners also contribute to the overall durability of a structure. The ribbed design allows for better adhesion between the stiffener and the main structural element, reducing the risk of delamination or separation over time. This is especially relevant in environments where moisture and temperature fluctuations can lead to material degradation. As such, using ribbed stiffeners can prolong the lifespan of buildings and infrastructure, making them more cost-effective in the long run.Moreover, the implementation of ribbed stiffeners can also enhance the aesthetic appeal of a structure. The ribbed patterns can be designed to complement the architectural style of a building, providing both functionality and beauty. For instance, in modern architecture, exposed ribbed stiffeners can serve as a design feature, showcasing the engineering prowess behind the construction. This dual purpose of being both a structural necessity and an artistic element makes ribbed stiffeners a valuable consideration in contemporary design.Furthermore, advancements in technology have led to the development of innovative materials and design techniques for ribbed stiffeners. Engineers can now utilize computer-aided design (CAD) software to optimize the dimensions and placement of stiffeners, ensuring maximum efficiency and performance. This technological integration has revolutionized the way ribbed stiffeners are used in construction, allowing for more complex and efficient designs that were previously unattainable.In conclusion, the ribbed stiffener (肋骨加劲肋) is an indispensable component in modern engineering and architecture. Its ability to enhance structural integrity, durability, and aesthetic appeal makes it a vital consideration in the design and construction of various structures. As technology continues to advance, the potential applications and benefits of ribbed stiffeners will undoubtedly expand, further solidifying their importance in the field. Understanding the role of ribbed stiffeners not only aids engineers and architects in their work but also contributes to the creation of safer and more resilient built environments.

在工程和建筑领域，结构完整性至关重要。各种类型的加固材料在增强这一完整性方面发挥着重要作用。在这些加固材料中，肋骨加劲肋（ribbed stiffener）在增强结构的强度和刚度方面起着关键作用。肋骨加劲肋是一种结构元素，其特征是肋状的形状，为梁、板和壳体提供额外的支撑。这些加劲肋通常由钢或钢筋混凝土等材料制成，旨在承受显著的负载，同时最小化变形。肋骨加劲肋的主要功能是更均匀地分配结构上的负载。当负载施加到梁或板上时，可能会导致弯曲或屈曲。引入肋骨加劲肋有助于抵消这些影响，提供额外的抗变形能力。这在大型建筑中尤为重要，例如桥梁和高层建筑，因为作用于结构上的力可能非常巨大。通过结合使用肋骨加劲肋，工程师可以确保结构在不同负载下保持稳定和安全。除了承载能力外，肋骨加劲肋还提高了结构的整体耐久性。肋状设计允许加劲肋与主结构元素之间更好的粘合，减少了随着时间推移发生剥离或分离的风险。这在潮湿和温度波动可能导致材料降解的环境中尤其相关。因此，使用肋骨加劲肋可以延长建筑物和基础设施的使用寿命，从而在长期内降低成本。此外，实施肋骨加劲肋也可以增强结构的美学吸引力。肋状图案可以设计成与建筑的建筑风格相辅相成，提供功能性和美感。例如，在现代建筑中，暴露的肋骨加劲肋可以作为设计特色，展示建筑背后的工程实力。这种作为结构必要性和艺术元素的双重目的，使得肋骨加劲肋在当代设计中成为一个有价值的考虑。此外，技术的进步使得肋骨加劲肋的创新材料和设计技术得以发展。工程师现在可以利用计算机辅助设计（CAD）软件来优化加劲肋的尺寸和位置，确保最大效率和性能。这种技术整合彻底改变了肋骨加劲肋在建筑中的应用方式，使得以前无法实现的更复杂和高效的设计成为可能。总之，肋骨加劲肋（ribbed stiffener）是现代工程和建筑中不可或缺的组成部分。它增强结构完整性、耐久性和美学吸引力的能力，使其在各种结构的设计和建造中成为一个重要的考虑因素。随着技术的不断进步，肋骨加劲肋的潜在应用和好处无疑将扩大，进一步巩固其在该领域的重要性。理解肋骨加劲肋的作用不仅有助于工程师和建筑师的工作，还有助于创造更安全、更具韧性的建筑环境。