electric material

简明释义

电气材料

英英释义

例句

1.The research focused on developing new electric material 电气材料 for renewable energy applications.

研究集中在开发用于可再生能源应用的新型电气材料。

2.The engineer selected the appropriate electric material 电气材料 for the circuit design.

工程师为电路设计选择了合适的电气材料。

3.The workshop provided hands-on experience with various types of electric material 电气材料.

研讨会提供了与各种类型的电气材料的实践经验。

4.Using high-quality electric material 电气材料 can enhance the performance of electrical devices.

使用高质量的电气材料可以提高电气设备的性能。

5.Proper insulation is crucial when working with electric material 电气材料 to prevent short circuits.

在处理电气材料时，适当的绝缘是至关重要的，以防止短路。

作文

In today's rapidly advancing technological world, the demand for innovative and efficient electric material (电气材料) has become increasingly significant. These materials are essential in the development of various electronic devices, from smartphones to electric vehicles. Understanding the properties and applications of electric material (电气材料) is crucial for engineers and scientists as they strive to create more effective and sustainable technologies.The term electric material (电气材料) encompasses a wide range of substances that conduct electricity, insulate against it, or possess unique electromagnetic properties. Common examples include metals like copper and aluminum, which are excellent conductors, while materials such as rubber and glass serve as effective insulators. Additionally, semiconductors like silicon play a pivotal role in modern electronics, forming the backbone of integrated circuits and transistors.One of the primary considerations when selecting electric material (电气材料) is its conductivity. Conductivity refers to a material's ability to allow the flow of electric current, which is critical for the performance of any electronic device. High conductivity materials enable efficient energy transfer, reducing power loss and improving overall system performance. For instance, copper is widely used in wiring due to its superior conductivity, making it an ideal choice for electrical connections.On the other hand, insulators are equally important in the realm of electric material (电气材料). These materials prevent the unwanted flow of electricity, ensuring safety and functionality in electrical systems. Insulators are used in various applications, such as coating wires and insulating components within devices. The choice of insulating material can significantly impact the reliability and efficiency of an electrical system.Moreover, the development of new electric material (电气材料) is a key area of research in the field of materials science. Researchers are constantly exploring novel compounds and composites that exhibit enhanced properties, such as higher conductivity, better thermal management, or improved durability. For example, graphene, a single layer of carbon atoms arranged in a two-dimensional lattice, has shown remarkable electrical properties, making it a promising candidate for future electronic applications.As the world shifts towards renewable energy sources, the demand for advanced electric material (电气材料) is expected to grow. Materials that can efficiently store and convert energy, such as batteries and supercapacitors, are vital for the success of electric vehicles and solar energy systems. Innovations in these areas can lead to more sustainable solutions, reducing our reliance on fossil fuels and minimizing environmental impact.In conclusion, the significance of electric material (电气材料) cannot be overstated in the context of modern technology. From enhancing the performance of everyday gadgets to enabling groundbreaking advancements in renewable energy, these materials are at the forefront of innovation. As we continue to explore and develop new electric material (电气材料), we pave the way for a more efficient and sustainable future.

在当今快速发展的技术世界中，对创新和高效的电气材料（electric material）的需求变得越来越重要。这些材料在各种电子设备的发展中至关重要，从智能手机到电动汽车。了解电气材料（electric material）的特性和应用对于工程师和科学家来说是至关重要的，因为他们努力创造更有效和可持续的技术。术语电气材料（electric material）涵盖了广泛的物质，这些物质可以导电、绝缘或具有独特的电磁特性。常见的例子包括铜和铝等金属，它们是优良的导体，而橡胶和玻璃等材料则作为有效的绝缘体。此外，硅等半导体在现代电子产品中发挥着关键作用，构成了集成电路和晶体管的基础。选择电气材料（electric material）时，一个主要考虑因素是其导电性。导电性是指材料允许电流流动的能力，这对任何电子设备的性能至关重要。高导电性的材料能够实现高效的能量传输，减少功率损失，提高整体系统性能。例如，铜因其优越的导电性而广泛用于电线，成为电气连接的理想选择。另一方面，绝缘体在电气材料（electric material）的领域同样重要。这些材料防止电流的不必要流动，确保电气系统的安全性和功能性。绝缘体用于各种应用，例如涂覆电线和绝缘设备内的组件。绝缘材料的选择会显著影响电气系统的可靠性和效率。此外，新电气材料（electric material）的开发是材料科学领域的重要研究方向。研究人员不断探索新型化合物和复合材料，这些材料表现出增强的特性，如更高的导电性、更好的热管理或更好的耐用性。例如，石墨烯是一种由碳原子排列成二维晶格的单层材料，显示出卓越的电气特性，使其成为未来电子应用的有希望的候选者。随着世界向可再生能源的转变，对先进的电气材料（electric material）的需求预计将增长。能够高效存储和转换能量的材料，例如电池和超级电容器，对于电动汽车和太阳能系统的成功至关重要。这些领域的创新可以导致更可持续的解决方案，减少我们对化石燃料的依赖，最小化环境影响。总之，在现代技术背景下，电气材料（electric material）的重要性不容小觑。从增强日常设备的性能到推动可再生能源的突破性进展，这些材料处于创新的前沿。随着我们继续探索和开发新的电气材料（electric material），我们为更高效和可持续的未来铺平了道路。