inside radius
简明释义
内半径
英英释义
The inside radius refers to the distance from the center of a circular arc or bend to the inner edge of the curve. | 内半径是指从圆弧或弯曲的中心到曲线内边缘的距离。 |
例句
1.In architectural design, the inside radius 内半径 of arches must be carefully considered.
在建筑设计中,拱门的内半径 inside radius必须仔细考虑。
2.The engineer calculated the inside radius 内半径 of the pipe to ensure it would fit properly in the installation.
工程师计算了管道的内半径 inside radius以确保其在安装中能够正确适配。
3.When designing the wheel, we need to consider the inside radius 内半径 for optimal performance.
在设计轮子时,我们需要考虑内半径 inside radius以获得最佳性能。
4.The inside radius 内半径 of the bend affects the flow rate in fluid dynamics.
弯头的内半径 inside radius会影响流体动力学中的流速。
5.To create a smooth transition, the inside radius 内半径 of the corner should be rounded.
为了创建平滑的过渡,角落的内半径 inside radius应当是圆形的。
作文
When designing various structures, particularly in fields like architecture and engineering, understanding the concept of the inside radius is crucial. The term inside radius refers to the radius of the inner curve of a circular or rounded object. This measurement is essential when creating designs that involve curves, as it directly affects the overall dimensions and aesthetics of the structure. For instance, in the construction of roads, the inside radius determines how sharp a turn can be without compromising safety. A smaller inside radius might allow for tighter turns, but it also increases the risk of accidents if vehicles cannot navigate the curve safely.In architectural design, the inside radius plays a significant role in the creation of smooth transitions between different sections of a building. For example, when designing a staircase with curved steps, the inside radius must be carefully calculated to ensure that the steps are both functional and visually appealing. If the inside radius is too small, it may lead to uncomfortable or unsafe steps, while a radius that is too large may waste valuable space.Moreover, the inside radius is not just limited to physical structures; it also applies to various mechanical components. In machinery, the inside radius can affect the performance and efficiency of moving parts. For example, in piping systems, the inside radius of bends can influence the flow rate of liquids or gases. A sharp bend with a small inside radius can create turbulence, leading to inefficiencies and potential blockages.In the world of design, the aesthetic aspect of the inside radius cannot be overlooked. Designers often use curves to create visually pleasing forms. The choice of inside radius can change the character of a design dramatically. A gentle curve with a larger inside radius tends to convey elegance and fluidity, while a sharper curve with a smaller inside radius can impart a sense of dynamism and energy. Artists and designers must consider these effects when developing their concepts.In conclusion, the inside radius is a fundamental concept that intersects various disciplines such as architecture, engineering, and design. Understanding its implications allows professionals to create safer, more efficient, and aesthetically pleasing structures. Whether designing a road, a staircase, or a piece of machinery, the careful consideration of the inside radius can lead to better outcomes and innovative solutions. As we continue to push the boundaries of design and engineering, the importance of mastering concepts like the inside radius will only grow, highlighting the intricate relationship between form and function in our built environment.
在设计各种结构时,特别是在建筑和工程等领域,理解内半径的概念至关重要。术语内半径指的是圆形或弯曲物体的内曲线的半径。这一测量在创建涉及曲线的设计时是必不可少的,因为它直接影响到结构的整体尺寸和美学。例如,在道路建设中,内半径决定了转弯的尖锐程度,而不会妨碍安全性。较小的内半径可能允许更紧凑的转弯,但如果车辆无法安全地通过曲线,也会增加事故的风险。在建筑设计中,内半径在不同部分之间创建平滑过渡方面发挥着重要作用。例如,在设计带有曲线台阶的楼梯时,必须仔细计算内半径以确保台阶既实用又美观。如果内半径太小,可能导致不舒适或不安全的台阶,而内半径太大则可能浪费宝贵的空间。此外,内半径不仅限于物理结构;它还适用于各种机械组件。在机械设备中,内半径可以影响移动部件的性能和效率。例如,在管道系统中,弯头的内半径可以影响液体或气体的流速。一个尖锐的弯头,具有较小的内半径,可能会造成湍流,导致效率低下和潜在的堵塞。在设计的世界中,内半径的美学方面也不容忽视。设计师通常使用曲线来创造视觉上令人愉悦的形式。内半径的选择可以极大地改变设计的特征。较大的内半径的温和曲线往往传达优雅和流畅感,而较小的内半径的尖锐曲线则可以传达活力和动感。艺术家和设计师在开发其概念时必须考虑这些效果。总之,内半径是一个基本概念,它与建筑、工程和设计等多个学科交叉。理解其影响使专业人员能够创建更安全、更高效和更具美感的结构。无论是设计道路、楼梯还是机械部件,仔细考虑内半径都能带来更好的结果和创新的解决方案。随着我们不断推动设计和工程的边界,掌握像内半径这样的概念的重要性只会增加,突显出我们建成环境中形式与功能之间错综复杂的关系。
相关单词
