convex bending of frame

简明释义

骨材外弯

英英释义

例句

1.The engineer recommended adjustments to minimize the convex bending of frame in the new construction.

工程师建议进行调整，以最小化新建工程中的框架的凸弯曲。

2.The architect discussed the impact of convex bending of frame on the structural integrity of the building.

建筑师讨论了框架的凸弯曲对建筑结构完整性的影响。

3.During the inspection, we noticed the convex bending of frame in the bridge design could lead to potential safety issues.

在检查过程中，我们注意到桥梁设计中的框架的凸弯曲可能会导致潜在的安全问题。

4.Understanding the convex bending of frame is crucial for ensuring the longevity of structures.

理解框架的凸弯曲对确保结构的耐久性至关重要。

5.In furniture design, the convex bending of frame can enhance both aesthetics and comfort.

在家具设计中，框架的凸弯曲可以增强美观和舒适性。

作文

The concept of convex bending of frame is crucial in various fields of engineering and architecture. When we talk about the convex bending of frame, we refer to a structural phenomenon where a frame or beam bends outward, creating a convex shape. This bending can occur due to various loads applied to the structure, such as weight or pressure. Understanding this concept is essential for engineers who design buildings and bridges, as it affects the stability and safety of the structures they create.In engineering, frames are often used to support loads and distribute forces. The convex bending of frame can be observed in many real-world applications. For instance, when a bridge is constructed, the beams that support the deck may experience convex bending of frame due to the weight of vehicles passing over it. If the bending is excessive, it could lead to structural failure, which is why engineers must calculate the expected loads and design frames that can withstand them without deforming beyond acceptable limits.Moreover, the convex bending of frame also plays a significant role in the aesthetics of architectural designs. Many modern buildings incorporate curved elements that not only serve a structural purpose but also enhance the visual appeal of the structure. Architects must consider how the convex bending of frame will affect both the functionality and appearance of their designs. This requires a deep understanding of material properties, load distribution, and the principles of mechanics.To analyze the convex bending of frame, engineers often use mathematical models and simulations. These tools allow them to predict how a frame will behave under different conditions. By inputting variables such as load magnitude, material type, and frame dimensions, they can visualize the bending and ensure that it remains within safe limits. This analysis is vital for ensuring that structures can endure the forces they will encounter throughout their lifespan.In addition to engineering and architecture, the concept of convex bending of frame is also relevant in other areas such as furniture design and automotive engineering. For example, a chair with a curved backrest utilizes the principles of convex bending of frame to provide comfort and support to the user. Similarly, car manufacturers consider convex bending of frame when designing vehicle frames to ensure they can absorb impact during collisions while maintaining structural integrity.In conclusion, the convex bending of frame is a fundamental aspect of structural design that impacts safety, functionality, and aesthetics. Whether in large-scale constructions like bridges and buildings or smaller applications like furniture, understanding how frames bend and behave under load is essential for creating effective and durable designs. Engineers and architects must continue to study and apply the principles of convex bending of frame to innovate and improve the structures that shape our environment.

“框架的凸弯”这一概念在工程和建筑的各个领域都至关重要。当我们谈论“框架的凸弯”时，我们指的是一种结构现象，即框架或梁向外弯曲，形成凸形。这种弯曲可能是由于施加在结构上的各种载荷引起的，例如重量或压力。理解这一概念对于设计建筑和桥梁的工程师来说至关重要，因为它影响到他们所创造结构的稳定性和安全性。在工程中，框架通常用于支撑载荷和分配力量。“框架的凸弯”可以在许多现实应用中观察到。例如，当一座桥被建造时，支撑甲板的梁可能会因车辆通过而经历“框架的凸弯”。如果弯曲过度，可能导致结构失效，这就是为什么工程师必须计算预期载荷并设计能够承受这些载荷而不变形的框架。此外，“框架的凸弯”在建筑设计的美学中也发挥着重要作用。许多现代建筑都采用了曲线元素，这不仅具有结构目的，还增强了结构的视觉吸引力。建筑师必须考虑“框架的凸弯”将如何影响设计的功能性和外观。这需要对材料特性、载荷分布和力学原理有深入的理解。为了分析“框架的凸弯”，工程师通常使用数学模型和模拟工具。这些工具使他们能够预测框架在不同条件下的行为。通过输入载荷大小、材料类型和框架尺寸等变量，他们可以可视化弯曲情况，并确保其保持在安全范围内。这种分析对于确保结构能够承受其在整个生命周期中遇到的力量至关重要。除了工程和建筑，“框架的凸弯”这一概念在家具设计和汽车工程等其他领域也相关。例如，一把带有曲背的椅子利用“框架的凸弯”原理为用户提供舒适和支持。同样，汽车制造商在设计车辆框架时也考虑“框架的凸弯”，以确保它们在碰撞时能够吸收冲击，同时保持结构完整性。总之，“框架的凸弯”是结构设计的基本方面，影响着安全性、功能性和美学。无论是在桥梁和建筑等大型建设项目中，还是在家具等小型应用中，理解框架在载荷下的弯曲和行为对于创造有效且耐用的设计至关重要。工程师和建筑师必须继续研究和应用“框架的凸弯”原理，以创新和改善塑造我们环境的结构。