puncture voltage

简明释义

击穿电压

英英释义

例句

1.A higher puncture voltage 刺穿电压 indicates better quality insulation for high-voltage applications.

更高的刺穿电压 刺穿电压表示高压应用中绝缘材料的质量更好。

2.Testing the puncture voltage 刺穿电压 of cables is crucial to prevent electrical failures.

测试电缆的刺穿电压 刺穿电压对于防止电气故障至关重要。

3.The insulation material must withstand a minimum puncture voltage 刺穿电压 to ensure safety in electrical applications.

绝缘材料必须承受至少最低的刺穿电压 刺穿电压以确保电气应用的安全。

4.During the safety assessment, we measured the puncture voltage 刺穿电压 of the protective gear.

在安全评估期间，我们测量了保护装备的刺穿电压 刺穿电压。

5.Manufacturers often specify the puncture voltage 刺穿电压 in their product datasheets for safety compliance.

制造商通常在其产品数据表中指定刺穿电压 刺穿电压以符合安全标准。

作文

Understanding the concept of puncture voltage is essential in various fields, particularly in electrical engineering and materials science. The term refers to the minimum voltage that causes a dielectric material to become conductive, resulting in a breakdown of its insulating properties. This phenomenon can have significant implications in the design and application of electrical components, such as capacitors, insulators, and circuit boards.In electrical engineering, the puncture voltage is a critical parameter for ensuring the safety and reliability of electrical systems. When designing systems that operate at high voltages, engineers must select materials that can withstand these conditions without failing. If the voltage exceeds the puncture voltage of a material, it can lead to catastrophic failures, including short circuits, fires, or even explosions. Therefore, understanding the puncture voltage helps engineers choose appropriate materials that can endure the operational stresses they will face.Moreover, the puncture voltage is influenced by several factors, including temperature, humidity, and the physical condition of the material. For instance, a material may have a higher puncture voltage when dry compared to when it is wet. This is particularly relevant in environments where moisture can accumulate, such as outdoor installations or in humid climates. Engineers must take these variables into account during the design process to ensure that the materials selected will perform reliably under expected conditions.In addition to electrical engineering, the concept of puncture voltage is also significant in the field of materials science. Researchers study the puncture voltage of various materials to develop new insulators that can handle higher voltages or to improve existing materials. This research often involves experimenting with different compounds and structures to discover innovative solutions that enhance performance. Understanding the puncture voltage allows scientists to predict how materials will behave under stress and to design materials that meet specific requirements for various applications.Furthermore, the importance of puncture voltage extends beyond just theoretical studies; it has practical applications in everyday technology. For example, in the development of consumer electronics, manufacturers must ensure that the components used in devices like smartphones, laptops, and tablets can withstand the electrical demands placed on them. Failure to consider the puncture voltage could result in devices that malfunction or pose safety risks to users.In conclusion, the term puncture voltage plays a crucial role in the fields of electrical engineering and materials science. By understanding this concept, engineers and researchers can make informed decisions about material selection and system design, ultimately leading to safer and more reliable electrical systems. As technology continues to advance, the significance of puncture voltage will only grow, highlighting the need for ongoing research and development in this area. It is imperative for professionals in these fields to stay informed about the latest findings related to puncture voltage to ensure that they are equipped to tackle the challenges posed by modern electrical and electronic systems.

理解击穿电压的概念在多个领域中至关重要，特别是在电气工程和材料科学中。该术语指的是导致绝缘材料导电的最小电压，从而导致其绝缘性能的破坏。这种现象在电容器、绝缘体和电路板等电气组件的设计和应用中可能会产生重大影响。在电气工程中，击穿电压是确保电气系统安全和可靠的重要参数。在设计高电压运行的系统时，工程师必须选择能够承受这些条件而不会失效的材料。如果电压超过了材料的击穿电压，可能会导致灾难性故障，包括短路、火灾甚至爆炸。因此，理解击穿电压有助于工程师选择适当的材料，以承受它们所面临的操作压力。此外，击穿电压受到多种因素的影响，包括温度、湿度和材料的物理状态。例如，当材料干燥时，其击穿电压可能比潮湿时更高。这在户外安装或潮湿气候等环境中特别相关。工程师必须在设计过程中考虑这些变量，以确保所选材料在预期条件下能够可靠地执行。除了电气工程，击穿电压的概念在材料科学领域也具有重要意义。研究人员研究各种材料的击穿电压，以开发能够处理更高电压的新绝缘体或改善现有材料。该研究通常涉及实验不同的化合物和结构，以发现增强性能的创新解决方案。理解击穿电压使科学家能够预测材料在压力下的行为，并设计出满足各种应用特定要求的材料。此外，击穿电压的重要性不仅限于理论研究；它在日常技术中的实际应用也很广泛。例如，在消费电子产品的开发中，制造商必须确保用于智能手机、笔记本电脑和平板电脑等设备的组件能够承受施加在它们上的电气需求。未能考虑击穿电压可能导致设备故障或对用户造成安全风险。总之，术语击穿电压在电气工程和材料科学领域中发挥着关键作用。通过理解这一概念，工程师和研究人员可以就材料选择和系统设计做出明智的决策，最终导致更安全、更可靠的电气系统。随着技术的不断进步，击穿电压的重要性只会增加，这突显了在这一领域持续研究和发展的必要性。对于这些领域的专业人士来说，了解与击穿电压相关的最新发现至关重要，以确保他们能够应对现代电气和电子系统所带来的挑战。