ribbed stiffener

简明释义

防挠材

英英释义

例句

1.The engineer recommended using a ribbed stiffener to enhance the structural integrity of the bridge.

工程师建议使用肋骨加劲肋来增强桥梁的结构完整性。

2.In the design phase, we included a ribbed stiffener to prevent warping in the panel.

在设计阶段，我们加入了一个肋骨加劲肋以防止面板变形。

3.The construction team installed a ribbed stiffener along the walls to improve stability.

施工队在墙壁上安装了肋骨加劲肋以提高稳定性。

4.For the new product line, we decided to implement a ribbed stiffener for better load distribution.

对于新产品线，我们决定实施肋骨加劲肋以更好地分配负载。

5.The aircraft's fuselage was reinforced with a ribbed stiffener to withstand high pressure during flight.

飞机机身采用了肋骨加劲肋进行加固，以承受飞行中的高压。

作文

In the world of engineering and design, the term ribbed stiffener refers to a structural element that is used to reinforce or strengthen materials. These stiffeners are typically made from various materials such as metal, plastic, or composite fibers, and they are designed with ribs or protrusions that increase their rigidity and load-bearing capacity. Understanding the role of ribbed stiffeners is crucial for anyone involved in construction, manufacturing, or product design.The primary function of a ribbed stiffener is to prevent deformation under load. When a flat surface is subjected to force, it can bend or warp. However, by integrating ribbed stiffeners into the design, engineers can distribute the load more evenly across the material. This is particularly important in applications where strength and durability are paramount, such as in aerospace, automotive, and marine industries.For instance, consider the design of an aircraft wing. The wing must be lightweight yet strong enough to withstand significant aerodynamic forces during flight. Engineers often use ribbed stiffeners within the wing structure to provide the necessary support without adding excessive weight. The ribs create a network of support that enhances the overall integrity of the wing, allowing it to perform efficiently while maintaining safety standards.Moreover, ribbed stiffeners can also be found in everyday products. Take, for example, the packaging of electronics. Many electronic devices are housed in plastic casings that include ribbed stiffeners to protect the internal components from shock and impact. These stiffeners not only improve the durability of the casing but also contribute to the aesthetic appeal of the product by providing a sleek and modern look.In addition to their functional benefits, ribbed stiffeners can also play a crucial role in the manufacturing process. By incorporating these elements into the design phase, manufacturers can reduce material waste and optimize production efficiency. The ribs can be molded or extruded along with the main material, minimizing additional processing steps and lowering production costs.Furthermore, the versatility of ribbed stiffeners allows them to be adapted for various applications. In civil engineering, for example, ribbed stiffeners are often used in concrete structures to enhance their tensile strength. By embedding ribbed steel bars within concrete slabs, builders can create stronger and more resilient structures capable of withstanding heavy loads and environmental stressors.In conclusion, the concept of ribbed stiffeners is integral to modern engineering and design practices. Their ability to enhance strength, improve load distribution, and streamline manufacturing processes makes them invaluable in a wide range of applications. Whether in high-tech industries or everyday consumer products, understanding and utilizing ribbed stiffeners is essential for creating durable and efficient designs. As technology continues to advance, the importance of these structural elements will likely grow, leading to even more innovative uses in the future.

在工程和设计的世界中，术语肋加强筋指的是用于增强或加固材料的结构元素。这些加强筋通常由金属、塑料或复合纤维等多种材料制成，并且它们的设计带有肋或突起，可以增加其刚性和承载能力。理解肋加强筋的作用对于任何参与建筑、制造或产品设计的人来说都是至关重要的。肋加强筋的主要功能是防止在负载下变形。当平面表面受到力的作用时，它可能会弯曲或变形。然而，通过将肋加强筋集成到设计中，工程师可以更均匀地分配材料上的负载。这在航空航天、汽车和海洋工业等对强度和耐久性要求极高的应用中尤其重要。例如，考虑飞机机翼的设计。机翼必须轻便，同时又要足够强大，以承受飞行过程中巨大的气动力量。工程师们通常在机翼结构中使用肋加强筋来提供必要的支撑，而不会增加过多的重量。肋条创建了一个支撑网络，增强了机翼的整体完整性，使其能够高效地运行，同时保持安全标准。此外，肋加强筋还可以在日常产品中找到。例如，电子产品的包装。许多电子设备都装在塑料外壳中，这些外壳中包含肋加强筋，以保护内部组件免受冲击和撞击。这些加强筋不仅提高了外壳的耐用性，还通过提供流线型和现代化的外观来增强产品的美学吸引力。除了功能性好处之外，肋加强筋在制造过程中也可以发挥关键作用。通过将这些元素纳入设计阶段，制造商可以减少材料浪费并优化生产效率。肋条可以与主要材料一起成型或挤出，从而最小化额外的加工步骤并降低生产成本。此外，肋加强筋的多功能性使其能够适应各种应用。在土木工程中，例如，肋加强筋通常用于混凝土结构，以增强其抗拉强度。通过在混凝土板中嵌入肋钢筋，建筑商可以创建更强大、更具韧性的结构，能够承受重负荷和环境压力。总之，肋加强筋的概念是现代工程和设计实践中不可或缺的一部分。它们增强强度、改善负载分布和简化制造过程的能力使其在广泛的应用中变得无价。无论是在高科技行业还是日常消费产品中，理解和利用肋加强筋对于创造耐用和高效的设计至关重要。随着技术的不断进步，这些结构元素的重要性可能会进一步增长，从而在未来导致更具创新性的用途。