metal line

简明释义

液面线

英英释义

例句

1.The artist incorporated a metal line into her sculpture to add structural support.

艺术家在她的雕塑中加入了一根金属线以增加结构支撑。

2.During the experiment, we connected the electrodes using a metal line to conduct electricity.

在实验过程中，我们用一根金属线连接电极以导电。

3.We need to replace the broken metal line in the circuit to restore functionality.

我们需要更换电路中断裂的金属线以恢复功能。

4.The fence was reinforced with a metal line to prevent animals from escaping.

围栏用一根金属线加固，以防止动物逃跑。

5.The technician used a metal line to ensure accurate measurements for the installation.

技术员使用了一根金属线来确保安装的准确测量。

作文

In the realm of modern technology, the term metal line (金属线) often comes up in discussions about electrical engineering and circuit design. A metal line (金属线) refers to a conductive pathway made from metal that is used to connect different components within an electronic device. These lines are crucial in ensuring that electrical signals can travel efficiently between various parts of a circuit, enabling devices to function correctly. The importance of metal lines (金属线) cannot be overstated. In the design of integrated circuits, for instance, engineers must carefully calculate the dimensions and materials used for these lines to minimize resistance and maximize conductivity. Common materials for metal lines (金属线) include copper and aluminum, both of which have excellent conductive properties. Moreover, the layout of metal lines (金属线) on a circuit board can significantly impact the overall performance of an electronic device. If the metal lines (金属线) are too close together, it can lead to crosstalk, where signals interfere with one another, causing malfunctions. Conversely, if they are spaced too far apart, it can result in increased resistance and slower signal transmission. Therefore, engineers must strike a balance when designing the layout of metal lines (金属线). Another critical aspect of metal lines (金属线) is their role in heat dissipation. As electrical currents pass through these lines, they generate heat, which can affect the performance and longevity of electronic components. Efficient thermal management is essential, and engineers often employ various techniques to ensure that metal lines (金属线) do not overheat. This may include using wider lines to reduce resistance or incorporating heat sinks to draw heat away from sensitive areas. In addition to their electrical functions, metal lines (金属线) also play a role in the mechanical stability of a circuit board. They help to reinforce the structure, providing support to other components and preventing damage during manufacturing and assembly processes. The durability of metal lines (金属线) is therefore vital, especially in devices that may experience physical stress or vibrations. As technology continues to advance, the design and fabrication of metal lines (金属线) are evolving as well. Innovations such as nano-fabrication techniques allow for the creation of extremely thin metal lines (金属线), which can lead to even more compact and efficient electronic devices. Researchers are also exploring new materials that could enhance the performance of metal lines (金属线), potentially leading to faster, more reliable electronics in the future. In conclusion, understanding the concept of metal lines (金属线) is essential for anyone interested in electronics and circuit design. These conductive pathways are integral to the functionality, efficiency, and reliability of electronic devices. As technology progresses, the importance of metal lines (金属线) will only continue to grow, making them a vital topic of study for engineers and tech enthusiasts alike.

在现代科技领域，术语metal line（金属线）常常出现在关于电气工程和电路设计的讨论中。metal line（金属线）指的是用金属制作的导电路径，用于连接电子设备中的不同组件。这些线路对于确保电信号能够在电路的各个部分之间高效传输至关重要，从而使设备正常工作。metal lines（金属线）的重要性不容小觑。例如，在集成电路的设计中，工程师必须仔细计算这些线路的尺寸和材料，以最小化电阻并最大化导电性。metal lines（金属线）常用的材料包括铜和铝，这两种材料都具有优良的导电性能。此外，metal lines（金属线）在电路板上的布局会显著影响电子设备的整体性能。如果metal lines（金属线）过于靠近，可能会导致串扰，即信号相互干扰，导致故障。相反，如果它们间隔得太远，则可能会导致电阻增加和信号传输速度变慢。因此，工程师在设计metal lines（金属线）的布局时必须找到平衡。metal lines（金属线）的另一个关键方面是它们在热量散发中的作用。当电流通过这些线路时，会产生热量，这可能会影响电子组件的性能和寿命。有效的热管理至关重要，工程师通常采用各种技术来确保metal lines（金属线）不会过热。这可能包括使用更宽的线路以减少电阻，或结合散热器将热量从敏感区域引走。除了其电气功能外，metal lines（金属线）在电路板的机械稳定性中也起着作用。它们有助于增强结构，为其他组件提供支持，并防止在制造和组装过程中发生损坏。因此，metal lines（金属线）的耐用性至关重要，特别是在可能经历物理压力或振动的设备中。随着技术的不断进步，metal lines（金属线）的设计和制造也在不断演变。纳米制造等创新技术使得可以创建极薄的metal lines（金属线），这可以导致更紧凑和高效的电子设备。研究人员还在探索可以提高metal lines（金属线）性能的新材料，未来可能会导致更快、更可靠的电子产品。总之，理解metal lines（金属线）的概念对任何对电子学和电路设计感兴趣的人来说都是必不可少的。这些导电路径是电子设备功能、效率和可靠性的核心。随着技术的进步，metal lines（金属线）的重要性只会继续增长，使其成为工程师和技术爱好者必须研究的重要课题。