cylindroid

简明释义

英[ˈsɪlɪnˌdrɔɪd]美[ˈsɪlɪnˌdrɔɪd]

adj. 圆柱形的

n. 椭圆柱；圆柱性面

英英释义

单词用法

同义词

反义词

例句

1.This paper propose the analytical solve of effective factor of one-dimensional cylindroid catalyst, which takes an one-order inreversible reaction, by using special functions.

利用特殊函数求出了一维圆柱形催化剂在等温一级不可逆反应中的效率因子，并对其渐进方程和普遍化效率因子进行了讨论。

2.Based on the thermal guide theory, we analyzed the melting progress with the cylindroid model in the optical fiber LPHVD (laser plasma hybrid vapour deposition) process.

利用热传导理论，结合LPHVD工艺，在圆柱体模型基础上分析了光纤工艺中激光熔融过程。

3.According to the structural feature of parallel single disk gate valve, the strength and rigidity of body will be calculated with finite element method, and with cylindroid shell theory.

根据主闸阀结构特点，分别用有限元法和椭圆柱板壳理论公式计算了阀体的强度与刚度，并进行了分析对比，同时对闸板的刚度进行了校核。

4.According to the structural feature of parallel single disk gate valve, the strength and rigidity of body will be calculated with finite element method, and with cylindroid shell theory.

根据主闸阀结构特点，分别用有限元法和椭圆柱板壳理论公式计算了阀体的强度与刚度，并进行了分析对比，同时对闸板的刚度进行了校核。

5.The cylindroid design was chosen for its efficiency in space utilization.

由于空间利用效率高，选择了圆柱体设计。

6.The artist created a sculpture that resembled a cylindroid shape.

艺术家创作了一件雕塑，形状类似于圆柱体。

7.The engineer designed a new cylindroid container for transporting liquids.

工程师设计了一种新的圆柱体容器用于运输液体。

8.During the physics class, we studied the properties of a cylindroid object.

在物理课上，我们研究了圆柱体物体的性质。

9.In mathematics, the volume of a cylindroid can be calculated using specific formulas.

在数学中，圆柱体的体积可以使用特定的公式计算。

作文

In the realm of geometry, various shapes and forms capture our imagination and serve practical purposes in our daily lives. One such interesting shape is the cylindroid, which can be defined as a three-dimensional geometric figure that resembles a cylinder but has a more complex structure. The cylindroid can be described as a solid formed by rotating a curve around an axis, and it often exhibits properties that are both fascinating and useful in different fields such as engineering, architecture, and even art.To better understand the significance of the cylindroid, we can consider its applications in real-world scenarios. For instance, in engineering, the design of certain components requires the use of shapes that maximize strength while minimizing material usage. The cylindroid offers an optimal solution for such requirements due to its unique geometric properties. Its curvature allows for the distribution of stress across its surface, making it an ideal choice for structures that need to withstand heavy loads.Moreover, in architecture, the cylindroid can be seen in various modern designs. Architects often utilize this shape to create visually appealing structures that also provide functional benefits. For example, a building with a cylindroid shape may offer more natural light and improved airflow compared to traditional rectangular buildings. This not only enhances the aesthetic appeal of the structure but also contributes to energy efficiency, making it a sustainable choice for urban development.In addition to its practical applications, the cylindroid also holds a place in the world of art. Artists often draw inspiration from geometric shapes, and the cylindroid is no exception. Its smooth curves and dynamic form can be used to create stunning sculptures and installations that captivate viewers. The interplay of light and shadow on a cylindroid surface can evoke emotions and provoke thought, demonstrating how geometry can transcend mere functionality and enter the realm of artistic expression.Understanding the cylindroid requires a grasp of its mathematical properties as well. The volume and surface area of a cylindroid can be calculated using specific formulas, which makes it an essential topic in advanced geometry. Students learning about this shape will find that it challenges their understanding of spatial relationships and encourages them to think critically about how shapes interact in three-dimensional space.In conclusion, the cylindroid is a remarkable geometric figure that merges practicality with beauty. Its applications span across various fields, including engineering, architecture, and art, showcasing its versatility and significance. By exploring the properties and uses of the cylindroid, we gain a deeper appreciation for the role that geometry plays in shaping our world. Whether we encounter it in a towering skyscraper, a functional piece of machinery, or a captivating work of art, the cylindroid serves as a reminder of the intricate connections between mathematics, science, and creativity.

在几何学的领域中，各种形状和形式吸引着我们的想象力，并在我们的日常生活中发挥着实际作用。其中一个有趣的形状是cylindroid，可以定义为一种三维几何图形，类似于圆柱体，但具有更复杂的结构。cylindroid可以被描述为通过围绕一个轴旋转曲线而形成的固体，它通常展现出在工程、建筑甚至艺术等不同领域中既迷人又实用的特性。为了更好地理解cylindroid的重要性，我们可以考虑它在现实世界中的应用。例如，在工程学中，某些组件的设计需要使用最大化强度同时最小化材料使用的形状。由于其独特的几何特性，cylindroid为此类需求提供了最佳解决方案。它的曲率使得应力能够在其表面上分布，使其成为需要承受重负荷的结构的理想选择。此外，在建筑学中，cylindroid可以在各种现代设计中看到。建筑师经常利用这种形状来创建视觉上吸引人的结构，同时也提供功能上的好处。例如，一座具有cylindroid形状的建筑可能比传统的矩形建筑提供更多的自然光和改善的空气流通。这不仅增强了结构的美学吸引力，还促进了能源效率，使其成为城市发展的可持续选择。除了实用应用外，cylindroid在艺术界也占有一席之地。艺术家们经常从几何形状中汲取灵感，而cylindroid也不例外。它的光滑曲线和动态形态可以用来创造令人惊叹的雕塑和装置，吸引观众的目光。光与影在cylindroid表面上的交错可以唤起情感并引发思考，展示了几何学如何超越单纯的功能性，进入艺术表达的领域。理解cylindroid需要掌握其数学特性。cylindroid的体积和表面积可以使用特定的公式进行计算，这使得它成为高级几何学中的一个重要主题。学习这种形状的学生会发现，它挑战了他们对空间关系的理解，并鼓励他们批判性地思考形状在三维空间中的相互作用。总之，cylindroid是一种非凡的几何图形，将实用性与美感结合在一起。它的应用跨越多个领域，包括工程、建筑和艺术，展示了其多样性和重要性。通过探索cylindroid的特性和用途，我们对几何学在塑造我们世界中的角色有了更深的认识。无论我们是在高耸的摩天大楼、功能性的机械部件，还是引人入胜的艺术作品中遇到它，cylindroid都提醒我们数学、科学与创造力之间的复杂联系。