toroidal

简明释义

英[tɒˈrɒɪd(ə)l;tɔː-]美[toʊˈrɔɪdəl]

adj. 环形的；[数] 超环面的

n. 曲面（圆环）

英英释义

单词用法

同义词

反义词

例句

1.The transient space process of molecular in a toroidal vacuum chamber of tokamak device during pulse puffing gas has been simulated by Monte-Carlo method.

用蒙特卡罗方法研究了脉冲充气时气体分子在托卡马克装置的环形真空室内的瞬态空间过程。

2.We establish the electromechanical-coupled dynamic model of a novel electromechanical integrating toroidal drive and derive its speed transfer function.

针对提出的新型机电集成超环面传动，建立了机电耦合动力学模型，推导了速度传递函数。

3.Thus, it is important to research the generic topology of the magnetic field in a toroidal device.

因此，在环形磁约束聚变装置中，对其磁场拓扑结构的研究是非常重要的。

4.The paper mainly discusses the working principle and structure of a new toroidal micro-magnetic fluxgate integrated inside printed circuit boards (PCB).

介绍了一种新型的基于印刷电路板技术基础上制造的环形微型磁通门传感器的工作原理和结构。

5.The toroidal design assures minimal leakage of stray magnetic fields and a highly efficient, compact package.

该环形设计保证了杂散磁场和高效，紧凑的封装最小的泄漏。

6.Toroidal composite vessel winded with fabric is a new kind of mechanical pressure vessels.

纤维缠绕环形复合材料容器是一种新型结构的压力容器。

7.The results show that the toroidal shell is a good type of compression ring for large scale storage tanks as well.

实验还表明对于大型拱顶储罐，采用圆环壳型的承压圈有较好的承载能力， 这是一种合理的结构型式。

8.The features of toroidal field are studied for different boundary conditions, Rayleigh Numbers and depths.

对比了不同边界模型、深度和瑞利数时的环型场的变化特征。

9.Researchers are studying toroidal 环形的 structures in order to improve energy efficiency in various applications.

研究人员正在研究环形的结构，以提高各种应用中的能量效率。

10.The magnetic field generated by the toroidal 环形的 transformer is more efficient than that of a traditional transformer.

由这个环形的变压器产生的磁场比传统变压器的更高效。

11.In plasma physics, a toroidal 环形的 confinement system is used to contain hot plasma for fusion reactions.

在等离子体物理中，使用环形的约束系统来限制用于聚变反应的高温等离子体。

12.The toroidal 环形的 geometry is crucial in the design of certain types of inductors.

在某些类型的电感器设计中，环形的几何形状至关重要。

13.The design of the toroidal 环形的 coil allows for a more uniform magnetic field.

这种环形的线圈设计使得磁场更加均匀。

作文

In the field of physics and engineering, the term toroidal refers to a geometric shape that resembles a doughnut or a ring. This shape is not only aesthetically pleasing but also has significant implications in various scientific applications. The study of toroidal structures can be found in numerous disciplines, including plasma physics, electromagnetism, and even architecture. One of the most prominent examples of a toroidal shape is the magnetic confinement fusion reactor, known as the tokamak. In a tokamak, plasma is contained within a toroidal chamber, where magnetic fields are utilized to maintain stability and prevent the hot plasma from coming into contact with the reactor walls.The importance of toroidal shapes extends beyond just fusion reactors. In electromagnetism, toroidal coils are used in transformers and inductors due to their ability to efficiently confine magnetic fields. The design of these coils minimizes energy loss, making them essential components in electrical engineering. By utilizing a toroidal configuration, engineers can create devices that are both compact and powerful, leading to advancements in technology that we often take for granted.Moreover, the toroidal shape is also prevalent in the natural world. For instance, certain types of galaxies exhibit a toroidal structure, which influences their rotation and the dynamics of stars within them. Understanding these toroidal formations helps astronomers gain insights into the evolution of galaxies and the universe itself. Similarly, in biological systems, some cellular structures exhibit toroidal characteristics, which can play a role in cell function and organization.In architecture, the concept of toroidal design can be seen in modern buildings that incorporate circular or ring-like elements. These designs not only provide aesthetic value but also enhance structural integrity. The distribution of stress in a toroidal structure often leads to improved load-bearing capabilities, making them ideal for large-scale constructions.The exploration of toroidal shapes invites interdisciplinary collaboration, as researchers from different fields come together to understand and utilize this unique geometry. For example, mathematicians study the properties of toroidal surfaces to develop new theories in topology, while engineers apply these principles to innovate new technologies. This synergy between disciplines highlights the versatility and significance of toroidal shapes in both theoretical and practical contexts.In conclusion, the term toroidal encompasses a wide range of applications and implications across various fields. From plasma confinement in fusion reactors to efficient electromagnetic devices and even natural phenomena, the toroidal shape proves to be an essential concept in understanding our world. As we continue to explore the properties and applications of toroidal structures, we unlock new possibilities for innovation and discovery that can shape the future of science and technology.

在物理学和工程学领域，术语toroidal指的是一种几何形状，类似于甜甜圈或环。这种形状不仅在美学上令人愉悦，而且在各种科学应用中具有重要意义。对toroidal结构的研究可以在许多学科中找到，包括等离子体物理学、电磁学，甚至建筑学。一个最显著的toroidal形状的例子是被称为托卡马克的磁约束聚变反应堆。在托卡马克中，等离子体被限制在一个toroidal腔体内，利用磁场保持稳定，防止高温等离子体与反应堆壁接触。toroidal形状的重要性不仅限于聚变反应堆。在电磁学中，toroidal线圈用于变压器和电感器，因为它们能够有效地限制磁场。这些线圈的设计最小化了能量损失，使其成为电气工程中的重要组件。通过利用toroidal配置，工程师可以创建既紧凑又强大的设备，从而推动我们常常视为理所当然的技术进步。此外，toroidal形状在自然界中也很常见。例如，某些类型的星系表现出toroidal结构，这影响了它们的旋转和内部恒星的动态。理解这些toroidal形成有助于天文学家深入了解星系及宇宙的演化。同样，在生物系统中，一些细胞结构表现出toroidal特征，这可能在细胞功能和组织中发挥作用。在建筑学中，toroidal设计的概念可以在现代建筑中看到，这些建筑结合了圆形或环形元素。这些设计不仅提供了美学价值，还增强了结构完整性。toroidal结构中的应力分布通常导致提高的承载能力，使其非常适合大规模建筑。对toroidal形状的探索邀请跨学科的合作，因为来自不同领域的研究人员共同努力理解和利用这一独特的几何形状。例如，数学家研究toroidal表面的性质，以发展新理论，而工程师将这些原理应用于创新新技术。这种学科之间的协同作用突显了toroidal形状在理论和实践背景下的多功能性和重要性。总之，术语toroidal涵盖了各个领域广泛的应用和意义。从聚变反应堆中的等离子体约束到高效的电磁设备，甚至自然现象，toroidal形状证明了在理解我们世界中的一个基本概念。随着我们继续探索toroidal结构的性质和应用，我们解锁了新的创新和发现的可能性，这些可能性可以塑造科学和技术的未来。