support polygon

简明释义

支撑多边形

英英释义

例句

1.The design of the structure must ensure a stable support polygon to prevent any collapse.

结构的设计必须确保一个稳定的支撑多边形以防止任何倒塌。

2.For the bridge design, we need to analyze the support polygon under various load conditions.

对于桥梁设计，我们需要在各种荷载条件下分析支撑多边形。

3.In robotics, the support polygon is crucial for maintaining balance during movement.

在机器人技术中，支撑多边形对保持运动中的平衡至关重要。

4.Engineers often calculate the support polygon to optimize load distribution in buildings.

工程师经常计算支撑多边形以优化建筑物中的荷载分布。

5.The support polygon determines the stability of the object on uneven surfaces.

在不平坦表面上，支撑多边形决定了物体的稳定性。

作文

In the field of engineering and design, the term support polygon refers to a geometric representation that defines the area within which a structure or object can be supported. This concept is crucial in ensuring stability and balance in various applications, from architectural designs to mechanical systems. Understanding the support polygon is essential for engineers and architects to guarantee that their designs can withstand various forces and loads without failure.The support polygon is typically illustrated as a polygonal shape formed by the points of contact between a supporting structure and the ground or another surface. These points of contact are critical because they determine how weight is distributed across the structure. For instance, in the case of a building, the corners of the foundation form the vertices of the support polygon, and the larger this polygon, the more stable the building will be against tipping or sliding.When designing any structure, engineers must consider the forces acting upon it, such as gravity, wind, and seismic activity. The support polygon plays a vital role in this analysis. A well-designed support polygon allows for the even distribution of these forces, minimizing the risk of structural failure. For example, if a building has a narrow support polygon, it may be more susceptible to tipping over during high winds or an earthquake. Therefore, expanding the support polygon by increasing the footprint of the building can lead to greater stability.Moreover, the concept of the support polygon can also be applied in various other fields, such as robotics and automotive design. In robotics, the support polygon determines how a robot maintains balance while moving. A robot with a wide support polygon can navigate uneven terrains more effectively than one with a narrow base. Similarly, in automotive design, the support polygon influences how a vehicle handles turns and maneuvers, impacting overall safety and performance.In conclusion, the support polygon is a fundamental concept in engineering that emphasizes the importance of stability and balance in design. By understanding and applying the principles of the support polygon, engineers and architects can create safer and more reliable structures. Whether in buildings, robots, or vehicles, the support polygon remains a critical factor in ensuring that designs can withstand the forces they encounter throughout their lifespan. As technology advances, the analysis and application of the support polygon will continue to evolve, leading to even more innovative and resilient designs in the future.

在工程和设计领域，术语支撑多边形指的是一个几何表示，定义了一个结构或物体可以被支撑的区域。这个概念在确保各种应用中的稳定性和平衡性方面至关重要，从建筑设计到机械系统。理解支撑多边形对于工程师和建筑师来说是必不可少的，以确保他们的设计能够承受各种力量和负载而不发生失败。支撑多边形通常被描绘为一个多边形形状，由支撑结构与地面或其他表面之间的接触点形成。这些接触点至关重要，因为它们决定了重量如何在结构上分配。例如，在建筑物的情况下，基础的角落形成了支撑多边形的顶点，而这个多边形越大，建筑物在倾斜或滑动时就越稳定。在设计任何结构时，工程师必须考虑施加在其上的力量，例如重力、风力和地震活动。支撑多边形在这种分析中发挥着至关重要的作用。设计良好的支撑多边形允许这些力量均匀分布，最小化结构失败的风险。例如，如果一座建筑物的支撑多边形很窄，它可能在强风或地震期间更容易倾倒。因此，通过增加建筑物的占地面积来扩大支撑多边形可以提高稳定性。此外，支撑多边形的概念还可以应用于其他多个领域，例如机器人技术和汽车设计。在机器人技术中，支撑多边形决定了机器人在移动时如何保持平衡。具有较宽支撑多边形的机器人能够比具有较窄底座的机器人更有效地在不平坦的地形上导航。类似地，在汽车设计中，支撑多边形影响车辆在转弯和操控时的表现，从而影响整体安全性和性能。总之，支撑多边形是工程中的一个基本概念，强调了设计中稳定性和平衡性的重要性。通过理解和应用支撑多边形的原则，工程师和建筑师可以创建更安全、更可靠的结构。无论是在建筑、机器人还是车辆中，支撑多边形始终是确保设计能够承受其生命周期内所遇到的力量的关键因素。随着技术的进步，支撑多边形的分析和应用将继续发展，未来将导致更具创新性和韧性的设计。