electrically nonconducting material

简明释义

不导电材料

英英释义

例句

1.When designing electrical devices, engineers must consider using electrically nonconducting material to ensure safety.

在设计电气设备时，工程师必须考虑使用绝缘材料以确保安全。

2.The flooring in the laboratory is made of electrically nonconducting material to reduce the risk of static electricity buildup.

实验室的地板由绝缘材料制成，以减少静电积聚的风险。

3.The casing of the appliance is made from electrically nonconducting material to protect users from electric shocks.

该设备的外壳由绝缘材料制成，以保护用户免受电击。

4.The handle of this tool is made from electrically nonconducting material, ensuring that it is safe to use near live wires.

这个工具的把手由绝缘材料制成，确保在靠近带电线路时使用安全。

5.In electronics, we often use electrically nonconducting material for insulation to prevent short circuits.

在电子学中，我们经常使用绝缘材料进行绝缘，以防止短路。

作文

In our modern world, the use of various materials is crucial for the development of technology and infrastructure. One important category of materials is known as electrically nonconducting material, which plays a significant role in ensuring safety and efficiency in electrical systems. These materials do not allow the flow of electric current, making them essential in preventing electrical accidents and protecting sensitive electronic components.Electrically nonconducting material can be found in many everyday items, from household appliances to industrial machinery. Common examples include rubber, glass, and certain plastics. These materials are specifically chosen for their insulating properties, which help to separate conductive components and minimize the risk of short circuits or electrical shocks. For instance, the handles of tools that are used in electrical work are often made from electrically nonconducting material to protect users from accidental contact with live wires.The importance of electrically nonconducting material extends beyond just safety. In electronic devices, insulation is critical for maintaining performance and reliability. Without proper insulation, signals can become distorted, leading to malfunctioning devices. Therefore, engineers and designers must carefully select appropriate electrically nonconducting material to ensure that their products function as intended.Moreover, the use of electrically nonconducting material is not limited to just insulation. These materials also play a role in thermal management. Many insulating materials are also effective at minimizing heat transfer, which can be beneficial in applications where overheating is a concern. For example, in high-performance electronics, managing heat dissipation is crucial to prevent damage and maintain optimal performance. By incorporating electrically nonconducting material that also offers thermal insulation, manufacturers can enhance the longevity and reliability of their products.In addition to their practical applications, electrically nonconducting material also has implications in research and development. Scientists are continually exploring new materials that exhibit nonconductive properties while also being lightweight, durable, and cost-effective. Innovations in this field could lead to breakthroughs in various industries, including renewable energy, automotive, and consumer electronics. As technology advances, the demand for advanced electrically nonconducting material will likely increase, driving further research and development efforts.In conclusion, electrically nonconducting material is an essential component in the design and functionality of countless devices and systems. Its ability to prevent the flow of electric current makes it vital for safety, efficiency, and performance in electrical applications. As we continue to innovate and develop new technologies, the importance of these materials will only grow, highlighting the need for ongoing research and exploration in the field of materials science. Understanding the significance of electrically nonconducting material allows us to appreciate the complexity and ingenuity involved in creating the safe and efficient systems that power our modern world.

在我们现代世界中，各种材料的使用对技术和基础设施的发展至关重要。其中一个重要的材料类别被称为电绝缘材料，它在确保电气系统的安全性和效率方面发挥着重要作用。这些材料不允许电流流动，使其在防止电气事故和保护敏感电子元件方面至关重要。电绝缘材料可以在许多日常物品中找到，从家用电器到工业机械。常见的例子包括橡胶、玻璃和某些塑料。这些材料因其绝缘特性而被特别选择，这有助于分离导电组件，最小化短路或电击的风险。例如，电工工具的手柄通常由电绝缘材料制成，以保护用户免受意外接触带电线路的危险。电绝缘材料的重要性不仅限于安全。在电子设备中，绝缘对于保持性能和可靠性至关重要。如果没有适当的绝缘，信号可能会失真，导致设备故障。因此，工程师和设计师必须仔细选择合适的电绝缘材料以确保其产品按预期功能运行。此外，电绝缘材料的使用不仅限于绝缘。这些材料在热管理中也起着作用。许多绝缘材料在减少热传递方面也非常有效，这在过热是一个问题的应用中可能是有益的。例如，在高性能电子设备中，管理热散发对于防止损坏和保持最佳性能至关重要。通过结合具有热绝缘性的电绝缘材料，制造商可以增强其产品的耐用性和可靠性。除了实际应用外，电绝缘材料在研究和开发中也有影响。科学家们不断探索新的材料，这些材料表现出非导电特性，同时又轻便、耐用且具有成本效益。该领域的创新可能会导致各个行业的突破，包括可再生能源、汽车和消费电子产品。随着技术的进步，对先进电绝缘材料的需求可能会增加，从而推动进一步的研究和开发工作。总之，电绝缘材料是无数设备和系统设计与功能的基本组成部分。它防止电流流动的能力使其在电气应用中的安全性、效率和性能方面至关重要。随着我们继续创新和开发新技术，这些材料的重要性只会增长，突显出材料科学领域持续研究和探索的必要性。理解电绝缘材料的重要性使我们能够欣赏到创造支撑我们现代世界的安全高效系统所涉及的复杂性和独创性。