breaking current

简明释义

开闸电流

英英释义

例句

1.In high-voltage applications, understanding the breaking current 破坏电流 is crucial for equipment longevity.

在高压应用中，理解破坏电流 breaking current对设备的耐用性至关重要。

2.During the experiment, we measured the breaking current 破坏电流 to ensure safety protocols were followed.

在实验过程中，我们测量了破坏电流 breaking current以确保遵循安全协议。

3.The breaking current 破坏电流 in this transformer is higher than expected, indicating a potential issue.

这个变压器中的破坏电流 breaking current高于预期，表明可能存在问题。

4.The engineer explained how the breaking current 破坏电流 can cause circuit failures.

工程师解释了如何破坏电流 breaking current可能导致电路故障。

5.To prevent damage, the system automatically shuts down when the breaking current 破坏电流 exceeds a certain level.

为了防止损坏，当破坏电流 breaking current超过某个水平时，系统会自动关闭。

作文

In the realm of science and technology, the term breaking current refers to the maximum amount of current that can flow through a circuit when it is first energized. This concept is crucial in electrical engineering, as it helps engineers design safe and efficient systems. When a circuit is powered on, there is often a surge of electricity that can exceed the normal operating current. This surge is known as the breaking current (短路电流), and understanding its implications is vital for preventing damage to electrical components.The importance of managing breaking current cannot be understated. For example, in industrial settings where heavy machinery operates, the initial surge of electricity can cause circuit breakers to trip if they are not rated to handle such currents. Therefore, engineers must carefully calculate the expected breaking current to ensure that all components in the system can withstand it without failure.Moreover, the breaking current plays a significant role in safety mechanisms. Circuit breakers and fuses are designed to interrupt the flow of electricity when the current exceeds a certain threshold, protecting both the equipment and the users from potential hazards. If the breaking current is too high for these protective devices, it could lead to catastrophic failures or even fires. Thus, understanding and calculating the breaking current is essential for creating reliable electrical systems.In addition to safety, the breaking current also impacts the efficiency of electrical systems. When engineers design circuits, they must consider how the breaking current will affect the overall performance. If a circuit is not designed to handle the initial surge, it could lead to overheating and decreased longevity of the components. Therefore, proper management of the breaking current not only ensures safety but also enhances the reliability and efficiency of electrical systems.Furthermore, advancements in technology have led to the development of more sophisticated devices that can manage breaking current more effectively. For instance, modern circuit breakers can detect surges and respond faster than traditional models, minimizing the risk of damage. This innovation highlights the ongoing need for research and development in the field of electrical engineering, as new challenges arise with the increasing complexity of electrical systems.In conclusion, the concept of breaking current is fundamental in the study and application of electrical engineering. Understanding this phenomenon allows engineers to design safer, more efficient systems that can withstand the demands of modern technology. As we continue to innovate and push the boundaries of what is possible, the knowledge and management of breaking current will remain a critical aspect of electrical engineering. By prioritizing safety and efficiency, we can ensure that our electrical systems are not only functional but also reliable and durable in the face of challenges ahead.

在科学和技术领域，术语breaking current（短路电流）指的是当电路首次通电时可以流过电路的最大电流。这一概念在电气工程中至关重要，因为它帮助工程师设计安全有效的系统。当电路通电时，通常会出现超过正常工作电流的电流冲击，这种冲击被称为breaking current。理解其影响对于防止电气元件损坏至关重要。管理breaking current的重要性不容小觑。例如，在重型机械操作的工业环境中，电流的初始激增可能导致断路器跳闸，如果它们的额定值无法承受这样的电流。因此，工程师必须仔细计算预期的breaking current，以确保系统中的所有组件都能承受而不发生故障。此外，breaking current在安全机制中也发挥着重要作用。断路器和保险丝的设计旨在当电流超过某个阈值时中断电流流动，从而保护设备和用户免受潜在危险。如果breaking current对这些保护装置来说过高，可能会导致灾难性的故障甚至火灾。因此，理解和计算breaking current对于创建可靠的电气系统至关重要。除了安全性外，breaking current还影响电气系统的效率。当工程师设计电路时，他们必须考虑breaking current如何影响整体性能。如果电路未能设计以承受初始激增，可能会导致过热和组件的使用寿命缩短。因此，妥善管理breaking current不仅确保安全，还增强了电气系统的可靠性和效率。此外，技术的进步使得开发更复杂的设备能够更有效地管理breaking current成为可能。例如，现代断路器能够比传统模型更快地检测冲击并作出反应，从而最小化损坏的风险。这一创新突显了电气工程领域持续进行研究和开发的必要性，因为随着电气系统复杂性的增加，新的挑战不断出现。总之，breaking current的概念在电气工程的研究和应用中是基础性的。理解这一现象使工程师能够设计出更安全、更高效的系统，能够承受现代技术的需求。随着我们不断创新并推动可能性的边界，对breaking current的知识和管理将始终是电气工程的重要方面。通过优先考虑安全性和效率，我们可以确保我们的电气系统不仅功能齐全，而且在面临未来挑战时也可靠耐用。