isolators

简明释义

[ˈaɪsəleɪtəz][ˈaɪsəˌleɪtərz]

n. 光电隔离器(isolator 的复数)

英英释义

Devices or materials that prevent the transfer of electricity, heat, or sound from one area to another.

防止电、热或声从一个区域转移到另一个区域的设备或材料。

In electrical engineering, components used to isolate parts of a circuit to ensure safety and functionality.

在电气工程中,用于隔离电路部分以确保安全和功能的组件。

单词用法

vibration isolator

隔振器

optical isolator

光频隔离器

同义词

insulators

绝缘体

Electrical insulators are used to prevent the flow of electricity.

电绝缘体用于防止电流流动。

separators

分隔器

The separators in the battery help to keep the electrodes apart.

电池中的分隔器有助于保持电极之间的距离。

barriers

屏障

Barriers can be used to isolate different areas in a laboratory.

屏障可用于在实验室中隔离不同区域。

detachers

分离器

Detachers are often used in manufacturing to separate components.

分离器通常用于制造中以分离组件。

反义词

conductors

导体

Copper is a good conductor of electricity.

铜是良好的电导体。

transmitters

传输器

The transmitter sends signals over long distances.

发射器可以在长距离内发送信号。

例句

1.An active isolation model is established for the flexible base and rigid equipment systems, taking account of the coupling of equipment, isolators and the foundation.

建立了一类柔性基础、刚性设备的复杂系统主动隔振模型,考虑了设备、隔振器、作动器和柔性基础的耦合作用。

2.In this paper, it is investigated that the wire rope isolators are utilized to isolate the vibration of 16PA6STC diesel engines.

现研究用钢丝绳隔振器解决16PA6STC柴油机主机的隔振问题。

3.In this dissertation, theoretical and numerical simulation studies have been conducted about structure vibration control with MR dampers, wire rope isolators and neural network PID control strategy.

本文利用神经网络PID控制算法,对使用磁流变阻尼器和钢丝绳减振器的舰用智能减振抗冲元件进行了理论和仿真研究。

4.This paper discusses the stiffness and damping of isolators for double-vibration solation system and gives the design formulas of stiffness of isolators when damping is considered.

本文讨论了电子设备采用双层隔振时减振器弹簧刚度及阻尼的设计方法,推导了当考虑阻尼时减振器的设计公式。

5.The busbar system of the main switchboard should be equipped with isolators. In this way, if any busbar section is in trouble, we may overhaul the board, which will not affect the ship's navigation.

主电板地汇流排系统应配有隔离开关,这样,即使汇流排的任一区段发生故障时,我们可以检修,而不影响船舶的航行。

6.The resource manager now provider Isolators which in turn provides a CloudResource directly or a Replicator depending on storage strategy.

资源管理器现在提供了Isolator,它能够直接提供一个CloudResource或者通过存储策略提供一个Replicator。

7.The numerical and experimental results show that if subjected to destructive earthquake, the acceleration of low structures installed the new isolators can be decreased by more than 80 percent.

数值计算和实验测量的结果表明:对具有破坏性的地震,安装该隔震器后的低层建筑物可削减地震动加速度达80 %以上。

8.In the laboratory, we use isolators to prevent contamination of our samples.

在实验室,我们使用隔离器来防止样品污染。

9.The soundproof room was lined with isolators to minimize noise interference.

隔音室内衬有隔音材料以最小化噪音干扰。

10.The building's foundation was equipped with isolators to enhance earthquake resistance.

建筑的基础配备了隔震器以增强抗震能力。

11.Electrical isolators are crucial for ensuring safety in high-voltage systems.

电气绝缘器对于确保高压系统的安全至关重要。

12.The engineers installed new isolators to reduce vibrations in the machinery.

工程师们安装了新的绝缘体以减少机器的振动。

作文

In the realm of science and engineering, the term isolators (绝缘体) plays a crucial role in various applications. From electrical systems to structural engineering, isolators serve as vital components that help maintain functionality and safety. Understanding the significance of isolators can enhance our appreciation for the intricacies of technology and infrastructure.To begin with, let’s define what isolators are. In general terms, isolators refer to materials or devices that prevent the transfer of energy, whether it be electrical, thermal, or vibrational. For instance, in electrical engineering, an isolator is used to disconnect a circuit, ensuring that electricity does not flow when maintenance is being performed. This is essential for the safety of workers and the integrity of the system.Moreover, isolators are also employed in the construction of buildings and bridges. Seismic isolators (抗震隔离器), for example, are designed to absorb and dissipate seismic energy during an earthquake. By allowing the building to move independently of ground motion, these isolators significantly reduce the risk of structural damage and protect the lives of occupants. This application showcases how isolators contribute to public safety and disaster resilience.On a different note, thermal isolators (热绝缘体) are used in various industries to minimize heat transfer. For instance, in the field of aerospace, thermal isolators are critical for protecting sensitive equipment from extreme temperature fluctuations in space. By preventing heat loss or gain, these isolators ensure that instruments operate within their optimal temperature range, thus enhancing performance and reliability.The importance of isolators extends beyond technical specifications; they are integral to sustainable practices as well. In energy-efficient buildings, isolators play a significant role in reducing energy consumption. By minimizing heat transfer, these materials help maintain comfortable indoor temperatures, thereby decreasing reliance on heating and cooling systems. This not only lowers energy bills but also reduces carbon footprints, contributing to environmental sustainability.Furthermore, the innovation surrounding isolators continues to evolve. Researchers are constantly exploring new materials and technologies to improve the effectiveness of isolators. For example, advances in nanotechnology have led to the development of highly efficient thermal isolators that can outperform traditional materials. Such innovations promise to enhance the performance of various systems, from electronics to construction, making them safer and more efficient.In conclusion, isolators (绝缘体) are indispensable components in numerous fields, playing a pivotal role in safety, efficiency, and sustainability. Whether in electrical systems, construction, or thermal management, understanding the function and significance of isolators allows us to appreciate the complexities of modern technology and its impact on our lives. As we continue to innovate and improve upon these essential materials, we pave the way for a safer and more sustainable future.

在科学和工程领域,术语isolators(绝缘体)在各种应用中发挥着至关重要的作用。从电气系统到结构工程,isolators作为重要组成部分,帮助维护功能性和安全性。理解isolators的重要性可以增强我们对技术和基础设施复杂性的欣赏。首先,让我们定义一下什么是isolators。一般来说,isolators指的是防止能量转移的材料或设备,无论是电能、热能还是振动。例如,在电气工程中,isolator用于断开电路,确保在进行维护时电流不会流动。这对于工人的安全和系统的完整性至关重要。此外,isolators还用于建筑和桥梁的建造中。例如,抗震isolators(抗震隔离器)旨在吸收和耗散地震能量。在地震发生时,这些isolators允许建筑物独立于地面运动,从而显著降低结构损坏的风险,保护居住者的生命安全。这一应用展示了isolators如何为公共安全和灾害韧性做出贡献。另一方面,热isolators(热绝缘体)在各行各业中用于最小化热传递。例如,在航空航天领域,热isolators对保护敏感设备免受太空中极端温度波动至关重要。通过防止热量的损失或增加,这些isolators确保仪器在其最佳温度范围内运行,从而增强性能和可靠性。isolators的重要性不仅限于技术规范;它们也是可持续实践的核心。在节能建筑中,isolators在减少能源消耗方面发挥着重要作用。通过最小化热传递,这些材料有助于维持舒适的室内温度,从而减少对供暖和制冷系统的依赖。这不仅降低了能源费用,还减少了碳足迹,为环境可持续性做出了贡献。此外,围绕isolators的创新不断发展。研究人员不断探索新材料和技术,以提高isolators的有效性。例如,纳米技术的进步导致开发出高效的热isolators,其性能优于传统材料。这种创新有望提高各种系统的性能,从电子设备到建筑,使其更安全、更高效。总之,isolators(绝缘体)在众多领域中是不可或缺的组成部分,在安全、高效和可持续性方面发挥着关键作用。无论是在电气系统、建筑还是热管理中,理解isolators的功能和重要性使我们能够欣赏现代技术及其对我们生活的影响的复杂性。随着我们不断创新和改进这些基本材料,我们为更安全和更可持续的未来铺平了道路。