metacentric involute

简明释义

稳心渐伸线

英英释义

例句

1.In the context of mechanical design, understanding the metacentric involute is crucial for creating effective transmission systems.

在机械设计的背景下，理解中性渐开线对于创建有效的传动系统至关重要。

2.The design of the gear involved a complex calculation of the metacentric involute to ensure optimal performance.

齿轮的设计涉及对中性渐开线的复杂计算，以确保最佳性能。

3.The metacentric involute profile was chosen for its ability to minimize friction between gears.

选择了中性渐开线轮廓，因为它能够最小化齿轮之间的摩擦。

4.During the simulation, the impact of the metacentric involute on load distribution was analyzed.

在模拟过程中，分析了中性渐开线对负载分布的影响。

5.Engineers often refer to the metacentric involute when discussing the efficiency of gear systems.

工程师在讨论齿轮系统的效率时，常常提到中性渐开线。

作文

In the realm of engineering and geometry, understanding complex terms is crucial for effective communication and application. One such term is metacentric involute, which may seem daunting at first glance. To comprehend this phrase, we must break it down into its components. The term 'metacentric' refers to a point associated with the stability of floating bodies, particularly in naval architecture. It indicates the relationship between the center of buoyancy and the center of gravity. On the other hand, 'involute' is a concept from geometry that describes a specific type of curve generated by unwinding a taut string from a circle. When combined, metacentric involute suggests a geometric figure or property that relates to stability and curvature in a three-dimensional space.The significance of metacentric involute can be observed in various applications, particularly in the design of ships and submarines. In naval architecture, ensuring that a vessel remains stable while navigating through water is paramount. The metacentric height, which is derived from the metacenter, plays a critical role in determining this stability. A higher metacentric height generally indicates greater stability, allowing the vessel to return to an upright position after being tilted. By incorporating the principles of metacentric involute, engineers can design hull shapes that optimize stability while maintaining efficient hydrodynamic performance.Moreover, the concept of metacentric involute extends beyond naval architecture. In mechanical engineering, it can be applied to gear design. Gears are fundamental components in machines, and their efficiency is often determined by their shape and interaction. The involute profile of gear teeth allows for smooth engagement and disengagement, minimizing wear and tear. Understanding how metacentric involute shapes can influence gear performance enables engineers to create more reliable and efficient machines.To illustrate the practical implications of metacentric involute, consider the example of a ship's hull design. Engineers utilize computer-aided design (CAD) software to model various hull shapes, analyzing their metacentric properties. By experimenting with different involute curves, they can identify designs that provide optimal stability and speed. This iterative process showcases the importance of integrating theoretical concepts like metacentric involute into real-world applications.In conclusion, the term metacentric involute encapsulates a blend of geometric and engineering principles that are vital for creating stable and efficient designs in various fields. Whether it is in the construction of seafaring vessels or the development of intricate machinery, understanding the nuances of metacentric involute empowers engineers to push the boundaries of innovation. As technology continues to advance, the relevance of such concepts will only grow, highlighting the need for professionals to grasp and apply these intricate ideas effectively.

在工程和几何学领域，理解复杂术语对于有效沟通和应用至关重要。其中一个术语是metacentric involute，乍一看可能显得令人畏惧。要理解这个短语，我们必须将其分解为各个组成部分。“metacentric”一词指与浮体稳定性相关的一个点，特别是在船舶建筑中。它表示浮力中心与重心之间的关系。另一方面，“involute”是几何学中的一个概念，描述了一种特定类型的曲线，该曲线是通过从圆上展开一根拉紧的绳子生成的。当这两个词结合在一起时，metacentric involute暗示着与三维空间中的稳定性和曲率相关的几何图形或属性。metacentric involute的重要性可以在各种应用中观察到，特别是在船舶和潜艇的设计中。在船舶建筑中，确保船只在水中航行时保持稳定至关重要。由重心和浮心决定的元心高度在确定这种稳定性方面发挥着关键作用。较高的元心高度通常表示更大的稳定性，使船只在倾斜后能够恢复到直立位置。通过结合metacentric involute的原理，工程师可以设计出优化稳定性同时保持高效水动力性能的船体形状。此外，metacentric involute的概念超越了船舶建筑。在机械工程中，它可以应用于齿轮设计。齿轮是机器中的基本组件，其效率通常取决于其形状和相互作用。齿轮齿的渐开线轮廓允许平滑的啮合和脱离，最小化磨损。理解metacentric involute形状如何影响齿轮性能使工程师能够创造出更可靠和高效的机器。为了说明metacentric involute的实际意义，可以考虑船体设计的例子。工程师利用计算机辅助设计（CAD）软件对各种船体形状进行建模，分析其元心特性。通过尝试不同的渐开线曲线，他们可以识别出提供最佳稳定性和速度的设计。这一迭代过程展示了将理论概念如metacentric involute融入现实应用的重要性。总之，术语metacentric involute概括了几何和工程原理的结合，这些原理对于在各个领域创建稳定和高效的设计至关重要。无论是在海洋船只的建造还是在复杂机械的开发中，理解metacentric involute的细微差别赋予工程师推动创新边界的能力。随着技术的不断进步，这些概念的相关性只会增加，突显出专业人士有效掌握和应用这些复杂思想的必要性。