coupling
简明释义
n. [电]耦合;结合,联结
v. 连接(couple 的 ing 形式)
复 数 c o u p l i n g s
英英释义
单词用法
[化]偶联剂 | |
耦合效应 |
同义词
反义词
| 分离 | The separation of the two components is necessary for maintenance. | 这两个组件的分离对于维护是必要的。 | |
| 断开 | 与网络的断开可能导致数据丢失。 |
例句
1.Loose coupling is introduced by a proxy which invokes the call.
松耦合是通过一个发起调用的代理引入的。
2.The coupling coefficient of transformer relates the transforming efficiency.
变压器的耦合系数与变压器的效率有关。
3.You also have much less coupling in your code.
代码中的耦合也可以变得更松散。
4.The coupling of the rolling stability with the pithing and yawing is analyzed.
分析了滚动稳定性与杆身和偏航的耦合。
5.Such a back-coupling, in which the position of the moving plate has an impact on the forces that move it, could produce complicated and varying motions.
在这种反向耦合中,移动板的位置对移动它的力有影响,可以产生变化的复杂运动。
6.Another objective was to achieve loose coupling among components.
另一个目标是实现组件之间的松耦合。
7.To start with, the change has reduced coupling in the application.
首先,这个改变减少了应用程序的耦合性。
8.The physicist studied the coupling between different particles in the experiment.
物理学家研究了实验中不同粒子之间的耦合。
9.The engineer explained the importance of the coupling in the machinery for effective power transmission.
工程师解释了在机械中耦合对有效功率传输的重要性。
10.A flexible coupling is used to connect the two shafts without misalignment.
一个灵活的耦合用于连接两个轴而不产生错位。
11.In software development, a high degree of coupling between modules can make maintenance difficult.
在软件开发中,模块之间的高耦合程度会使维护变得困难。
12.The coupling of the two systems allowed for seamless data transfer.
这两个系统的耦合实现了无缝的数据传输。
作文
In the world of engineering and technology, the term coupling (联接) plays a crucial role in connecting different components of machinery and systems. It refers to a device that links two shafts together at their ends for the purpose of transmitting power. Couplings are essential in various applications, from simple household appliances to complex industrial machines. Understanding the importance of coupling (联接) can provide insights into how machines operate efficiently and effectively.One of the primary functions of a coupling (联接) is to allow for the transfer of torque between rotating shafts. This is particularly important in applications where the shafts may not be perfectly aligned. Flexible couplings, for example, can accommodate misalignment by allowing some degree of movement while still transmitting power. This flexibility helps to reduce wear and tear on the components, extending the lifespan of the machinery.Moreover, coupling (联接) also serves to protect machinery from overload. In many cases, if a motor or machine experiences excessive torque, a coupling can slip or break, preventing damage to more expensive components. This protective function is vital in maintaining the integrity of mechanical systems, especially in high-stress environments.There are various types of couplings (联接), each designed for specific applications. Rigid couplings are used when precise alignment is necessary, while flexible couplings are preferred in situations where there may be some misalignment. Other types include fluid couplings, which use hydraulic fluid to transmit power, and magnetic couplings, which rely on magnetic fields. Each type of coupling (联接) has its own advantages and disadvantages, making it important for engineers to choose the right one for their specific needs.In addition to mechanical applications, the concept of coupling (联接) can also be found in other fields such as software engineering and telecommunications. In software development, coupling (联接) refers to the degree of interdependence between software modules. Low coupling (联接) is desirable because it allows for easier maintenance and scalability of software systems. High coupling (联接), on the other hand, can lead to complications when changes need to be made, as modifications in one module can affect others.In telecommunications, coupling (联接) describes the interaction between two circuits or systems. Proper coupling (联接) ensures that signals are transmitted effectively without distortion or loss. Engineers must carefully design coupling (联接) mechanisms to optimize performance in communication systems.In summary, the term coupling (联接) encompasses a wide range of applications across different fields. Whether in mechanical systems, software design, or telecommunications, understanding the principles of coupling (联接) is essential for creating efficient and effective systems. As technology continues to advance, the importance of coupling (联接) will only grow, highlighting the need for ongoing education and exploration in this critical area of study.
在工程和技术的世界中,术语coupling(联接)在连接机械和系统的不同组件中发挥着至关重要的作用。它指的是一种设备,用于将两个轴在其末端连接在一起,以便传递动力。联接在各种应用中都是必不可少的,从简单的家用电器到复杂的工业机器。理解coupling(联接)的重要性可以提供对机器如何高效有效地操作的深入见解。coupling(联接)的主要功能之一是允许在旋转轴之间传递扭矩。这在轴可能未完全对齐的应用中尤其重要。例如,柔性联接可以通过允许一定程度的移动来适应不对齐,同时仍然传递动力。这种灵活性有助于减少组件的磨损,延长机械的使用寿命。此外,coupling(联接)还用于保护机械免受过载。在许多情况下,如果电动机或机器经历过大的扭矩,联接可能会滑动或断裂,从而防止对更昂贵组件的损坏。这种保护功能在维护机械系统的完整性方面至关重要,尤其是在高应力环境中。有各种类型的couplings(联接),每种类型都设计用于特定的应用。当需要精确对齐时,刚性联接被使用,而在可能存在一些不对齐的情况下,柔性联接更为理想。其他类型包括液体联接,它使用液压流体来传递动力,以及磁性联接,它依赖于磁场。每种类型的coupling(联接)都有其优缺点,因此工程师必须根据具体需求选择合适的类型。除了机械应用外,coupling(联接)的概念还可以在软件工程和电信等其他领域找到。在软件开发中,coupling(联接)指的是软件模块之间的相互依赖程度。低coupling(联接)是可取的,因为它允许软件系统更容易地进行维护和扩展。而高coupling(联接)则在需要进行更改时可能导致复杂性,因为一个模块的修改可能会影响其他模块。在电信中,coupling(联接)描述了两个电路或系统之间的相互作用。适当的coupling(联接)确保信号有效传输而不会失真或丢失。工程师必须仔细设计coupling(联接)机制,以优化通信系统的性能。总之,术语coupling(联接)涵盖了不同领域的一系列应用。无论是在机械系统、软件设计还是电信中,理解coupling(联接)的原理对于创建高效且有效的系统至关重要。随着技术的不断进步,coupling(联接)的重要性只会增加,这突显了在这一关键研究领域持续教育和探索的必要性。
