feeroelectric n.

简明释义

铁电体铁电的

英英释义

例句

1.The ferroelectric n. effect is crucial for the functioning of modern capacitors.

铁电效应对现代电容器的运行至关重要。

2.The unique polarization properties of ferroelectric n. substances make them ideal for sensors.

由于铁电物质独特的极化特性，使其非常适合用于传感器。

3.In this experiment, we will measure the properties of ferroelectric n. crystals under varying temperatures.

在这个实验中，我们将测量不同温度下铁电晶体的性质。

4.The research team discovered a new application for ferroelectric n. materials in energy storage devices.

研究团队发现了铁电材料在能源存储设备中的新应用。

5.Researchers are exploring the use of ferroelectric n. materials in next-generation memory devices.

研究人员正在探索在下一代存储设备中使用铁电材料。

作文

In the realm of modern technology, materials play a crucial role in the development of innovative devices. One such material that has garnered significant attention is feeroelectric n., which refers to a class of materials that exhibit both electrical and mechanical properties. These materials can generate an electric charge in response to applied mechanical stress, making them incredibly useful in various applications. The term feeroelectric n. is derived from the combination of 'ferroelectric', which indicates their ability to maintain a spontaneous electric polarization, and 'electric', highlighting their electrical characteristics.The unique properties of feeroelectric n. materials have led to their use in a range of technologies, including sensors, actuators, and memory devices. For instance, in sensors, feeroelectric n. materials can convert physical changes, such as pressure or temperature variations, into electrical signals. This capability is essential for creating accurate and responsive devices that can monitor environmental conditions or detect changes in mechanical systems.Moreover, feeroelectric n. materials are also utilized in actuators, where they can convert electrical energy into mechanical motion. This conversion is particularly valuable in applications like precision positioning systems or in devices that require rapid response times. The ability of feeroelectric n. materials to undergo deformation when an electric field is applied allows engineers to design more efficient and compact systems.In the field of data storage, feeroelectric n. materials are being explored for their potential to enhance memory devices. The ferroelectric effect enables non-volatile memory storage, meaning that information can be retained even when the power is turned off. This characteristic is particularly appealing for developing next-generation memory technologies that require less energy and provide faster access times compared to traditional storage solutions.Research into feeroelectric n. materials is continually evolving, with scientists seeking to discover new compounds and improve existing ones to maximize their performance. For example, recent studies have focused on enhancing the temperature stability and efficiency of feeroelectric n. materials, which are critical factors for their practical applications in harsh environments.As we look to the future, the importance of feeroelectric n. materials will likely continue to grow. With the increasing demand for smart technologies and sustainable solutions, these materials offer promising avenues for innovation. Their ability to bridge the gap between electrical and mechanical functions makes them indispensable in the development of advanced electronic devices.In conclusion, understanding feeroelectric n. materials is vital for anyone interested in the fields of material science and engineering. Their unique properties not only enable a wide range of applications but also pave the way for future advancements in technology. As research progresses, we can expect to see even more exciting developments involving feeroelectric n. materials, further integrating them into our everyday lives and revolutionizing how we interact with technology.

在现代科技领域，材料在创新设备的发展中发挥着至关重要的作用。其中一种引起广泛关注的材料是feeroelectric n.，指的是一类既具有电气特性又具有机械特性的材料。这些材料能够在施加机械应力时产生电荷，使其在各种应用中极具价值。术语feeroelectric n.源于“铁电”的组合，表示它们能够保持自发电极化，以及“电”的特点，突出了它们的电气特性。feeroelectric n.材料的独特性质使其在传感器、执行器和存储设备等多种技术中得以应用。例如，在传感器中，feeroelectric n.材料可以将物理变化（如压力或温度变化）转化为电信号。这种能力对于创建能够监测环境条件或检测机械系统变化的准确且反应灵敏的设备至关重要。此外，feeroelectric n.材料还用于执行器中，它们可以将电能转化为机械运动。这种转化在精密定位系统或需要快速响应的设备中尤为重要。feeroelectric n.材料在施加电场时发生变形的能力使工程师能够设计出更高效和紧凑的系统。在数据存储领域，feeroelectric n.材料因其增强存储设备的潜力而受到关注。铁电效应使得非易失性存储成为可能，这意味着即使在断电的情况下，信息仍然可以保留。这一特性对于开发下一代存储技术尤为吸引人，因为这些技术需要更少的能量并提供比传统存储解决方案更快的访问时间。对feeroelectric n.材料的研究不断发展，科学家们努力发现新化合物并改进现有材料，以最大限度地提高其性能。例如，最近的研究集中在增强feeroelectric n.材料的温度稳定性和效率上，这些都是它们在恶劣环境中实际应用的关键因素。展望未来，feeroelectric n.材料的重要性可能会继续增长。随着对智能技术和可持续解决方案需求的增加，这些材料为创新提供了有希望的途径。它们在电气和机械功能之间架起了桥梁，使其在先进电子设备的发展中不可或缺。总之，理解feeroelectric n.材料对于任何对材料科学和工程感兴趣的人来说都是至关重要的。它们独特的特性不仅使其能够广泛应用，而且为未来技术的进步铺平了道路。随着研究的进展，我们可以期待看到更多令人兴奋的与feeroelectric n.材料相关的发展，进一步将其融入我们的日常生活，并彻底改变我们与技术的互动方式。