conductively
简明释义
英[kənˈdʌktɪvli]美[kənˈdʌktɪvli]
adv. 能导电地
英英释义
In a manner that allows the transfer of heat or electricity. | 以允许热量或电力转移的方式。 |
单词用法
导热加热的 | |
导电耦合的 | |
导电有效的 | |
导电绝缘的 |
同义词
| 导电地 | 该材料以导电的方式传导热量。 | ||
| 传导性地 | 铜以传导性地传输电力。 | ||
| 导电的 | 金属以良好的导电性而闻名。 |
反义词
| 绝缘的 | 绝缘材料阻止电流的流动。 | ||
| 非导电的 | 橡胶是一种常用于安全的非导电物质。 |
例句
1.An upper metallization line (332) is conductively coupled to the metal shield (324), wherein the metal shield (324) serves as an etch stop during the formation of the upper metallization line (332).
以及导电地耦合到所述金属屏蔽(324)的上部金属化线(332),其中所述金属屏蔽(324)在所述上部金属化线(332)的形成过程中用作蚀刻停止件。
2.An upper metallization line (332) is conductively coupled to the metal shield (324), wherein the metal shield (324) serves as an etch stop during the formation of the upper metallization line (332).
以及导电地耦合到所述金属屏蔽(324)的上部金属化线(332),其中所述金属屏蔽(324)在所述上部金属化线(332)的形成过程中用作蚀刻停止件。
3.The thermal insulation prevents heat from escaping conductively 导热地 through the walls.
隔热材料防止热量
4.The building's heating system works conductively 导热地 to maintain a comfortable temperature.
建筑物的供暖系统导热地工作,以保持舒适的温度。
5.When two materials are in contact, they can exchange heat conductively 导热地.
当两种材料接触时,它们可以
6.The metal rod can transfer heat conductively 导热地 to the surrounding air.
金属棒可以导热地 将热量传递给周围的空气。
7.In this experiment, the electricity flows conductively 导电地 through the copper wire.
在这个实验中,电流通过铜线导电地流动。
作文
In the realm of physics, the concept of heat transfer is fundamental to understanding how energy moves through different materials. One of the key mechanisms of heat transfer is conduction, which occurs when heat is transferred through a material without the movement of the material itself. When we say that a material conducts heat well, we often refer to its ability to transfer thermal energy conductively (导热地). For instance, metals like copper and aluminum are known for their high thermal conductivity, meaning they can transfer heat conductively (导热地) with great efficiency. This property makes them ideal for applications such as cooking utensils and heat exchangers.In contrast, materials like wood and rubber have low thermal conductivity, meaning they do not transfer heat conductively (导热地) very well. This is why wooden handles are often used on pots and pans; they provide a barrier to heat, allowing us to hold them without burning our hands. Understanding how materials conduct heat conductively (导热地) is crucial in various fields, including engineering, construction, and even everyday life.Another important aspect of conduction is its relation to temperature gradients. Heat will flow from areas of higher temperature to areas of lower temperature conductively (导热地) until thermal equilibrium is reached. This principle is essential in designing efficient heating systems. For example, in a home heating system, the goal is to distribute heat conductively (导热地) throughout the space to ensure comfort.Moreover, the rate at which heat is conducted conductively (导热地) depends on the material's properties, including its density and specific heat capacity. Engineers often use this knowledge to select appropriate materials for insulation, ensuring that heat does not escape too quickly from buildings or appliances. Insulating materials, such as fiberglass or foam, are designed to minimize heat transfer conductively (导热地), keeping spaces warm in the winter and cool in the summer.In summary, the ability of materials to transfer heat conductively (导热地) is a vital concept in both science and practical applications. By understanding how different materials behave in terms of thermal conductivity, we can make informed decisions in design and engineering that enhance energy efficiency and comfort. Whether it's choosing the right materials for a construction project or selecting cookware for the kitchen, the principle of conduction plays a significant role in our daily lives, highlighting the importance of understanding how to utilize materials conductively (导热地) to our advantage.
在物理学领域,热传递的概念对于理解能量如何通过不同材料移动是基础。热传递的关键机制之一是导热,它发生在热量通过材料转移,而材料本身并不移动。当我们说一种材料能很好地导热时,我们通常指的是它以极高的效率将热能 conductively(导热地)传递。例如,铜和铝等金属以其高热导率而闻名,这意味着它们可以非常有效地 conductively(导热地)传递热量。这种特性使它们成为烹饪器具和热交换器等应用的理想材料。相反,像木材和橡胶这样的材料具有低热导率,这意味着它们不太能 conductively(导热地)传递热量。这就是为什么在锅和煲上常常使用木制把手的原因;它们提供了一个热量屏障,让我们可以在不烫伤手的情况下握住它们。理解材料如何 conductively(导热地)导热对于各个领域都至关重要,包括工程、建筑,甚至日常生活。导热的另一个重要方面是它与温度梯度的关系。热量将从高温区域流向低温区域 conductively(导热地),直到达到热平衡。这一原理在设计高效的供暖系统中至关重要。例如,在家庭供暖系统中,目标是将热量 conductively(导热地)分布到整个空间,以确保舒适。此外,热量 conductively(导热地)传递的速率还取决于材料的性质,包括其密度和比热容。工程师常常利用这些知识选择合适的绝缘材料,确保热量不会过快地从建筑或设备中散失。绝缘材料如玻璃纤维或泡沫被设计成尽量减少热量 conductively(导热地)传递,从而在冬季保持温暖,在夏季保持凉爽。总之,材料 conductively(导热地)传递热量的能力是在科学和实际应用中的一个重要概念。通过理解不同材料在热导率方面的表现,我们可以在设计和工程中做出明智的选择,从而提高能效和舒适度。无论是在建筑项目中选择合适的材料,还是在厨房中选择炊具,导热原理在我们的日常生活中扮演着重要角色,突显了理解如何利用材料 conductively(导热地)为我们服务的重要性。
