ultra-high resistance
简明释义
超高电阻
英英释义
例句
1.Engineers are looking for materials with ultra-high resistance to improve energy efficiency in power lines.
工程师们正在寻找具有超高电阻的材料,以提高电力线路的能效。
2.The device is designed to operate under conditions requiring ultra-high resistance to ensure safety.
该设备设计用于在需要超高电阻的条件下运行,以确保安全。
3.The new material developed for the circuit board exhibits ultra-high resistance, making it ideal for high-frequency applications.
新开发的电路板材料表现出超高电阻,使其非常适合高频应用。
4.In our latest experiment, we measured the ultra-high resistance of the insulator under extreme temperatures.
在我们最新的实验中,我们测量了绝缘体在极端温度下的超高电阻。
5.The ultra-high resistance of this component helps prevent current leakage in sensitive devices.
该组件的超高电阻有助于防止敏感设备中的电流泄漏。
作文
In the field of electronics and materials science, the term ultra-high resistance refers to a material's ability to resist the flow of electric current to an exceptionally high degree. This characteristic is crucial for various applications where minimizing energy loss and preventing unwanted electrical conduction are paramount. For instance, in the design of circuit boards, engineers often seek materials with ultra-high resistance to ensure that signals can travel without interference and to enhance the overall efficiency of the system.One of the most common materials exhibiting ultra-high resistance is certain types of ceramics, which are used in capacitors and insulators. These ceramics can withstand high voltages and prevent current leakage, making them ideal for use in high-performance electronic devices. Additionally, plastics and polymers with ultra-high resistance properties are increasingly being utilized in various applications, from household appliances to advanced aerospace technologies. The importance of ultra-high resistance extends beyond just performance; it also plays a critical role in safety. In environments where electrical equipment operates at high voltages, materials with ultra-high resistance help prevent short circuits and electrical fires, thereby protecting both equipment and personnel. For example, insulation materials that exhibit ultra-high resistance are vital in power transmission lines, where they ensure that electricity flows safely and efficiently over long distances.Moreover, the development of new materials with enhanced ultra-high resistance properties is an area of active research. Scientists are exploring nanomaterials and composites that can provide even greater resistance while maintaining lightweight and flexible characteristics. This innovation could lead to breakthroughs in the production of smaller, more efficient electronic devices that consume less power and generate less heat.In summary, ultra-high resistance is a fundamental property in the realm of electronics that influences the design, efficiency, and safety of a wide range of products. As technology continues to advance, the demand for materials with ultra-high resistance will only increase, driving further research and development in this essential field. Understanding and harnessing ultra-high resistance is not just about improving performance; it is also about paving the way for safer and more sustainable technological advancements in our everyday lives.
在电子和材料科学领域,短语超高电阻指的是材料抵抗电流流动的能力异常强。这一特性对于各种应用至关重要,尤其是在需要最小化能量损失和防止不必要的电导的场合。例如,在电路板的设计中,工程师通常寻求具有超高电阻的材料,以确保信号能够无干扰地传输,并提高系统的整体效率。某些类型的陶瓷是展示超高电阻的最常见材料之一,这些陶瓷被用于电容器和绝缘体。它们能够承受高电压并防止电流泄漏,使其成为高性能电子设备的理想选择。此外,具有超高电阻特性的塑料和聚合物在从家用电器到先进航空航天技术的各种应用中也越来越多地被使用。超高电阻的重要性不仅体现在性能上;它在安全方面也起着关键作用。在高电压下操作的电气设备的环境中,具有超高电阻特性的材料有助于防止短路和电气火灾,从而保护设备和人员。例如,展现出超高电阻的绝缘材料在电力传输线路中至关重要,它们确保电力安全高效地在长距离内流动。此外,开发具有增强的超高电阻特性的材料是一个活跃的研究领域。科学家们正在探索纳米材料和复合材料,这些材料可以提供更高的电阻,同时保持轻便和灵活的特性。这种创新可能会导致生产更小、更高效的电子设备的突破,这些设备消耗更少的电力并产生更少的热量。总之,超高电阻是电子领域的一个基本属性,它影响着广泛产品的设计、效率和安全性。随着技术的不断进步,对具有超高电阻材料的需求只会增加,从而推动这一重要领域的进一步研究和发展。理解和利用超高电阻不仅是为了提高性能;也是为了为我们日常生活中更安全和可持续的技术进步铺平道路。
