short stiffener

简明释义

短加劲肋

英英释义

例句

1.During the construction, we realized that a short stiffener was necessary to prevent buckling.

在施工过程中，我们意识到需要一个短加劲肋来防止屈曲。

2.The engineer decided to add a short stiffener to the beam for extra support.

工程师决定在梁上添加一个短加劲肋以提供额外的支撑。

3.The design specifications called for a short stiffener at critical load points.

设计规格要求在关键负载点设置一个短加劲肋。

4.We need to calculate the dimensions of the short stiffener to ensure it meets safety standards.

我们需要计算短加劲肋的尺寸，以确保其符合安全标准。

5.To enhance stability, the architect recommended using a short stiffener in the frame.

为了增强稳定性，建筑师建议在框架中使用一个短加劲肋。

作文

In the field of engineering, particularly in structural design, the term short stiffener is often used to describe a specific type of support that enhances the rigidity of a structure. A short stiffener is typically a small, rigid element that is placed at strategic locations within a framework to prevent deformation under load. This is crucial because structures must withstand various forces, including wind, weight, and seismic activity. Without adequate support, even well-designed structures can fail, leading to catastrophic consequences. The design of a short stiffener involves careful consideration of materials and placement. Engineers must assess the loads that the structure will encounter and determine where additional stiffness is necessary. For instance, in a steel beam, a short stiffener might be added at the mid-span or at points where the beam connects to other elements. This addition helps distribute stress more evenly across the beam, reducing the likelihood of buckling or bending. Moreover, the effectiveness of a short stiffener is influenced by its dimensions and the material from which it is made. Common materials used include steel, aluminum, and reinforced concrete. Each material has its own properties that affect how it responds to stress. For example, steel is known for its high tensile strength, making it an excellent choice for a short stiffener in heavy-load applications. Another important aspect of using short stiffeners is their role in improving the overall stability of a structure. In tall buildings, for instance, lateral forces due to wind can cause significant sway. By strategically placing short stiffeners throughout the building's frame, engineers can enhance its ability to resist these forces, ensuring safety and comfort for occupants. This application is especially vital in high-rise constructions, where the risk of failure is heightened. In addition to their structural benefits, short stiffeners can also play a role in aesthetic design. Designers often seek to integrate functional elements with visual appeal. A well-placed short stiffener can contribute to the overall look of a structure while serving its purpose of providing support. This dual function highlights the importance of collaboration between engineers and architects in modern construction projects. In conclusion, understanding the concept of a short stiffener is essential for anyone involved in structural engineering or architecture. These components are vital for enhancing the strength and stability of various structures, from bridges to skyscrapers. As technology advances, the design and implementation of short stiffeners continue to evolve, incorporating new materials and innovative techniques. Therefore, ongoing education and research in this area are crucial for ensuring that future constructions remain safe and durable. Ultimately, the use of short stiffeners exemplifies how engineering principles can be applied to solve real-world problems, making our built environment safer and more resilient against the forces of nature.

在工程领域，特别是结构设计中，短加劲肋（short stiffener）一词常用来描述一种特定类型的支撑，增强结构的刚性。短加劲肋通常是一个小而刚性的元素，放置在框架内的战略位置，以防止在负载下变形。这一点至关重要，因为结构必须承受各种力，包括风、重量和地震活动。如果没有足够的支撑，即使设计良好的结构也可能会失败，导致灾难性的后果。短加劲肋的设计需要仔细考虑材料和位置。工程师必须评估结构将遇到的负载，并确定在哪里需要额外的刚度。例如，在钢梁中，短加劲肋可能会添加在中跨或梁与其他元素连接的点。这种添加有助于更均匀地分配应力，减少屈曲或弯曲的可能性。此外，短加劲肋的有效性还受到其尺寸和所用材料的影响。常用的材料包括钢、铝和钢筋混凝土。每种材料都有其自身的特性，会影响它对应力的反应。例如，钢以其高拉伸强度而闻名，使其成为重载应用中短加劲肋的绝佳选择。使用短加劲肋的另一个重要方面是它们在改善结构整体稳定性中的作用。在高层建筑中，风造成的横向力可能会导致显著的摇摆。通过在建筑框架中战略性地放置短加劲肋，工程师可以增强其抵抗这些力的能力，确保居民的安全和舒适。这种应用在高层建筑中尤为重要，因为失败的风险加大。除了结构上的好处，短加劲肋还可以在美学设计中发挥作用。设计师往往寻求将功能元素与视觉吸引力结合起来。合理放置的短加劲肋可以在提供支撑的同时，提升结构的整体外观。这种双重功能突显了现代建筑项目中工程师与建筑师之间合作的重要性。总之，理解短加劲肋的概念对于任何参与结构工程或建筑的人来说都是至关重要的。这些组件对于增强各种结构的强度和稳定性至关重要，从桥梁到摩天大楼。随着技术的进步，短加劲肋的设计和实施继续发展，融入新材料和创新技术。因此，在这一领域的持续教育和研究对于确保未来建筑的安全和耐用至关重要。最终，短加劲肋的使用体现了工程原理如何应用于解决现实世界的问题，使我们的建筑环境更加安全和能抵御自然力的侵袭。