conductive
简明释义
adj. 导电(或热等)的,传导性的;(与)传导(有关的)
英英释义
具有导热、电或声的能力。 | |
Relating to the transfer of energy or signals through a medium. | 与通过介质传递能量或信号有关。 |
单词用法
导电涂层 | |
导电粘合剂 |
同义词
| 导电的 | Copper is a highly conductive material used in electrical wiring. | 铜是一种高导电性材料,常用于电线中。 |
反义词
| 绝缘的 | The material is insulative, preventing the flow of electricity. | 该材料是绝缘的,阻止电流的流动。 | |
| 非导电的 | Rubber is a non-conductive material commonly used in electrical insulation. | 橡胶是一种常用于电气绝缘的非导电材料。 |
例句
1.Key are conductive fibers made of polymers doped with additives, such as camphorsulfonic acid.
关键是由加了添加剂的聚合物,如樟脑磺酸制成的导电纤维。
2.Conductive hearing impairment is a problem in the outer or middle ear.
传导性听力障碍是外耳道或中耳道出现问题。
3.So instead the researchers use two layers of graphite-rich conductive polycarbonate, each flanked by a single metal strip in the inner and outer cladding.
因此,研究者们转而使用两层含石墨的导电性聚碳酸酯,各层的内外层都附有一条金属带。
4.Venus's ionosphere is highly conductive, and data taken by Venus Express suggest that the solar wind cannot penetrate it at any time.
金星的电离层具有很高的导电性,金星快车所采集的数据表明太阳风并非总能穿透电离层。
5.Instead the researchers use two layers of graphite-rich conductive plastic, each flanked by a single metal strip in the inner and outer cladding.
所以研究人员用了两层石墨含量较高的传导性塑料,每层塑料内外层的侧面都有一条金属带。
6.This is a low energy-density device, which stores electricity directly by charging two conductive plates with static.
(和电池相比,)这是一种“低能量密度”设备,电能被直接存储在两块静止的导电板上。
7.In the lab, we used a conductive gel to improve the quality of our readings.
在实验室里,我们使用了一种导电的凝胶来提高读数的质量。
8.The scientist explained that water is conductive when it contains impurities.
科学家解释说,当水含有杂质时,它是导电的。
9.The engineers designed a conductive pathway for the circuit to function properly.
工程师们设计了一条导电的通道,以使电路正常工作。
10.Copper is a highly conductive material, making it ideal for electrical wiring.
铜是一种高度导电的材料,因此非常适合用于电线。
11.Silicone can be made conductive by adding certain additives.
通过添加某些添加剂,硅胶可以变得导电的。
作文
In the realm of physics and engineering, the term conductive (导电的) plays a crucial role in our understanding of how materials interact with electricity. Conductive materials are those that allow electric current to flow through them with ease. This property is essential for a variety of applications, from the design of electronic devices to the construction of electrical infrastructure. Understanding what makes a material conductive (导电的) can help us make informed decisions when selecting materials for specific purposes.For instance, metals such as copper and aluminum are known for their high conductive (导电的) properties. These materials are often used in wiring and electrical components because they facilitate the efficient transfer of electricity. In contrast, materials like rubber and glass are considered insulators because they do not allow electric current to pass through easily. This distinction between conductive and non-conductive materials is vital in ensuring safety and functionality in electrical systems.The concept of conductive (导电的) materials extends beyond just metals. There are also conductive polymers and composites that have been developed for specific applications. These materials combine the beneficial properties of traditional conductors with the flexibility and lightweight nature of polymers. As technology advances, the demand for innovative conductive (导电的) materials continues to grow, leading to new discoveries and applications in fields such as electronics, renewable energy, and even medical devices.Moreover, the importance of conductive (导电的) materials is highlighted in the development of renewable energy technologies. For example, solar panels rely on conductive (导电的) materials to convert sunlight into electricity. The efficiency of these systems is directly related to the quality and properties of the conductive materials used. Researchers are constantly exploring new ways to enhance the conductivity of materials to improve the performance of solar cells and other renewable energy technologies.In conclusion, the term conductive (导电的) encompasses a wide range of materials and applications that are essential to modern technology. From traditional metals to advanced polymers, understanding the properties of conductive materials allows us to innovate and improve various systems that rely on electricity. As we continue to explore the potential of conductive (导电的) materials, we pave the way for advancements in technology that can lead to a more sustainable and efficient future.
在物理和工程领域,术语conductive(导电的)在我们理解材料如何与电力相互作用方面起着至关重要的作用。导电材料是指那些允许电流轻松流过的材料。这一特性在从电子设备设计到电气基础设施建设的各种应用中都是必不可少的。了解什么使材料具有conductive(导电的)特性可以帮助我们在为特定目的选择材料时做出明智的决策。例如,铜和铝等金属以其高conductive(导电的)特性而闻名。这些材料通常用于电线和电气组件,因为它们促进电力的有效传输。相比之下,橡胶和玻璃等材料被认为是绝缘体,因为它们不允许电流轻易通过。这种导电材料与非导电材料之间的区别对于确保电气系统的安全性和功能性至关重要。conductive(导电的)材料的概念不仅限于金属。还有一些导电聚合物和复合材料被开发用于特定应用。这些材料结合了传统导体的有益特性与聚合物的灵活性和轻便性。随着技术的进步,对创新conductive(导电的)材料的需求不断增长,导致在电子、可再生能源甚至医疗设备等领域的新发现和应用。此外,conductive(导电的)材料的重要性在可再生能源技术的发展中得到了凸显。例如,太阳能电池板依赖于conductive(导电的)材料将阳光转化为电能。这些系统的效率直接与所用导电材料的质量和特性相关。研究人员不断探索增强材料导电性的新的方法,以提高太阳能电池和其他可再生能源技术的性能。总之,术语conductive(导电的)涵盖了一系列对现代技术至关重要的材料和应用。从传统金属到先进的聚合物,理解导电材料的特性使我们能够创新和改善依赖电力的各种系统。随着我们继续探索conductive(导电的)材料的潜力,我们为技术进步铺平了道路,这可以引领我们走向一个更可持续和高效的未来。
