microwire

简明释义

[ˈmaɪkrəʊwaɪə][ˈmaɪkroʊwaɪər]

n. 微传线;导电带

英英释义

A microwire is a very thin wire, typically less than 100 micrometers in diameter, used in various applications including electronics, sensors, and medical devices.

微线是一种非常细的电线,通常直径小于100微米,用于电子、传感器和医疗设备等各种应用中。

单词用法

microwire technology

微线技术

microwire sensors

微线传感器

microwire applications

微线应用

coated microwire

涂层微线

thin microwire

薄微线

microwire network

微线网络

同义词

fine wire

细线

Fine wire is often used in electronic circuits due to its conductivity.

细线常用于电子电路,因为它的导电性。

micro cable

微型电缆

Micro cables are essential for connecting small devices in modern electronics.

微型电缆在现代电子设备中连接小型设备时至关重要。

nano wire

纳米线

Nano wires can be utilized in advanced nanotechnology applications.

纳米线可以应用于先进的纳米技术。

反义词

macrowire

大线

The macrowire is used for high voltage applications.

大线用于高压应用。

cable

电缆

This cable can carry more current than a microwire.

这个电缆可以承载比微线更多的电流。

例句

1.A method for preparing parallel dual microwire platinum electrodes is presented.

本文首次报道了平行双铂丝微电极的制作方法。

2.A method for preparing parallel dual microwire platinum electrodes is presented.

本文首次报道了平行双铂丝微电极的制作方法。

3.The new sensor uses a microwire 微线 for enhanced signal transmission.

新的传感器使用了一种微线以增强信号传输。

4.The microwire 微线 is coated with a special material to improve durability.

这根微线涂有特殊材料以提高耐用性。

5.A microwire 微线 can be used in wearable electronics to monitor health.

在可穿戴电子设备中可以使用微线来监测健康。

6.Researchers are developing a microwire 微线 network for medical applications.

研究人员正在开发一种用于医疗应用的微线网络。

7.The microwire 微线 technology allows for smaller and more efficient devices.

这种微线技术允许制造更小且更高效的设备。

作文

In the modern world, technology plays a crucial role in shaping our everyday lives. One of the fascinating innovations that have emerged in recent years is the use of microwire (微线), which has revolutionized various fields, including electronics, medical devices, and even telecommunications. Microwire (微线) refers to extremely thin wires, often with diameters less than 100 micrometers, made from materials such as metals or polymers. Their small size allows them to be used in applications where traditional wiring would be impractical or impossible.The significance of microwire (微线) can be seen in the field of electronics, where they are used to create smaller, more efficient circuits. As devices become more compact, the demand for thinner wiring increases. Microwire (微线) enables manufacturers to design intricate circuit boards that can fit into smartphones, tablets, and other portable gadgets without compromising performance. This advancement not only enhances the functionality of these devices but also contributes to energy efficiency, as smaller wires can reduce power loss during transmission.Moreover, microwire (微线) technology has made significant strides in the medical field. For instance, in minimally invasive surgeries, microwires (微线) are used in catheters and other medical instruments to navigate through the human body with precision. The flexibility and thinness of microwire (微线) allow surgeons to perform complex procedures without making large incisions, leading to quicker recovery times for patients. Additionally, microwires (微线) can be employed in biosensors, which monitor various biological parameters in real-time, providing critical data for patient care.Furthermore, the telecommunications industry has also benefited from microwire (微线) technology. With the increasing demand for faster internet speeds and better connectivity, microwires (微线) are utilized in fiber optics and other communication systems. Their ability to transmit signals over long distances with minimal loss makes them ideal for high-speed data transfer. As a result, microwire (微线) has become an essential component in the infrastructure that supports our digital lives.Despite their numerous advantages, the production and handling of microwire (微线) present challenges. Due to their small size, microwires (微线) can be easily damaged during manufacturing or installation. Therefore, engineers and technicians must exercise utmost care when working with these delicate components. Additionally, the materials used to create microwires (微线) must be carefully selected to ensure durability and conductivity, which adds complexity to the manufacturing process.In conclusion, the advent of microwire (微线) technology has significantly impacted various industries, enabling advancements that were previously unattainable. From enhancing electronic devices to improving medical procedures and supporting telecommunications, microwires (微线) demonstrate the importance of innovation in our rapidly evolving world. As technology continues to advance, it is likely that we will see even more applications for microwire (微线), further transforming the way we live and work.

在现代世界中,技术在塑造我们日常生活方面发挥着至关重要的作用。近年来出现的一个迷人创新是使用微线microwire),它彻底改变了电子、医疗设备甚至电信等多个领域。微线microwire)指的是直径通常小于100微米的极细导线,通常由金属或聚合物等材料制成。它们的小尺寸使得它们可以用于传统导线不切实际或不可能的应用。微线microwire)的重要性在电子领域中得以体现,在这里它们被用于创造更小、更高效的电路。随着设备变得更加紧凑,对更细导线的需求也在增加。微线microwire)使制造商能够设计出复杂的电路板,可以在不妨碍性能的情况下适应智能手机、平板电脑和其他便携式设备。这一进步不仅增强了这些设备的功能,而且有助于提高能效,因为更小的导线可以减少传输过程中的功率损失。此外,微线microwire)技术在医疗领域也取得了显著进展。例如,在微创手术中,微线microwire)被用于导管和其他医疗仪器,以精确导航人体。微线microwire)的灵活性和细度使外科医生能够在不进行大切口的情况下进行复杂的手术,从而缩短患者的恢复时间。此外,微线microwire)可以用于生物传感器,这些传感器实时监测各种生物参数,为患者护理提供关键数据。此外,电信行业也从微线microwire)技术中受益。随着对更快互联网速度和更好连接的需求增加,微线microwire)被用于光纤和其他通信系统。它们在长距离内以最小损耗传输信号的能力使其成为高速数据传输的理想选择。因此,微线microwire)已成为支持我们数字生活基础设施的重要组成部分。尽管有许多优点,但微线microwire)的生产和处理也面临挑战。由于其小尺寸,微线microwire)在制造或安装过程中容易损坏。因此,工程师和技术人员在处理这些精细组件时必须格外小心。此外,用于制造微线microwire)的材料必须经过仔细选择,以确保耐用性和导电性,这为制造过程增加了复杂性。总之,微线microwire)技术的出现对各个行业产生了重大影响,使得以前无法实现的进步成为可能。从增强电子设备到改善医疗程序,再到支持电信,微线microwire)展示了创新在我们快速发展的世界中的重要性。随着技术的不断进步,我们很可能会看到微线microwire)有更多的应用,进一步改变我们的生活和工作方式。