magnetizer

简明释义

英[ˈmæɡnɪˌtaɪzə(r)]美[ˈmæɡnətaɪzər]

n. [物] 导磁体；磁化机

英英释义

单词用法

同义词

反义词

例句

1.The invention provides a coupled antenna device and a radio frequency reading device. The coupled antenna device comprises a substrate, an antenna coil and a magnetizer.

一种耦合式天线装置与射频读取装置，其中耦合式天线装置包括一基板、一天线线圈及一导磁体。

2.This article presents a feasibility study of applying the type JC fuel-saving magnetizer to Marine power installation.

本文论述了JC型磁化节油器在船舶动力装置上应用的可行性及其对船舶动力性能与经济性的影响。

3.Its lengthways section from from the top down are non-magnetizer material board, winding covered by copper film and non - magnetizer basis material covered by copper film.

其纵向截面自下而上依次是非导磁材料板、覆铜箔线圈、覆铜箔板非导磁基材。

4.By arranging the head part of the common magnetizer to be in a taper Angle shape, the clearance distance can be shortened, and the effective use length of the iron core is extended.

本发明将普通导磁体的头部设置成锥角形后，可缩短间隙的距离，延长铁芯有效使用的长度。

5.It includes non - magnetizer basis material covered by copper film, winding covered by copper film and non-magnetizer material board.

它包括覆铜箔板非导磁基材、覆铜箔线圈和非导磁材料板。

6.By arranging the head part of the common magnetizer to be in a taper Angle shape, the clearance distance can be shortened, and the effective use length of the iron core is extended.

本发明将普通导磁体的头部设置成锥角形后，可缩短间隙的距离，延长铁芯有效使用的长度。

7.The technician used a magnetizer to enhance the magnetic properties of the steel components.

技术员使用磁化器来增强钢部件的磁性。

8.In the laboratory, the magnetizer was essential for experiments involving magnetic fields.

在实验室中，磁化器对于涉及磁场的实验至关重要。

9.Using a magnetizer helped in aligning the metal pieces for better assembly.

使用磁化器有助于对齐金属部件，以便更好地组装。

10.He bought a portable magnetizer for his workshop to improve tool performance.

他为自己的车间购买了一个便携式磁化器以提高工具性能。

11.The magnetizer can be adjusted to create different levels of magnetism.

磁化器可以调节以产生不同程度的磁性。

作文

In the realm of physics and engineering, the term magnetizer refers to a device or tool that is used to impart magnetic properties to materials. This process is crucial in various applications, ranging from electronics to industrial machinery. Understanding how a magnetizer works can provide insights into the fundamental principles of magnetism and its practical applications in our daily lives.The basic principle behind a magnetizer involves the alignment of magnetic domains within a material. When a ferromagnetic material, such as iron, is exposed to a strong magnetic field generated by a magnetizer, the magnetic domains within the material begin to align in the direction of the magnetic field. This alignment transforms the material into a magnet itself, allowing it to attract or repel other magnetic objects.One of the most common uses of a magnetizer is in the manufacturing of magnets for various applications. For instance, in the production of electric motors, a magnetizer is employed to create permanent magnets that are essential for the motor's operation. These magnets help generate the necessary magnetic fields that allow the motor to function efficiently. Without the use of a magnetizer, the production of high-quality magnets would be challenging and less reliable.Moreover, magnetizers are also utilized in the field of electronics. Many electronic devices, such as speakers and microphones, rely on magnets to produce sound. A magnetizer is used to ensure that the magnets used in these devices have the correct magnetic properties, which directly affects their performance. By controlling the strength and direction of the magnetic field during the magnetization process, engineers can create components that meet specific requirements for sound quality and efficiency.In addition to industrial applications, magnetizers can also be found in everyday household items. For example, many refrigerator magnets are created using a magnetizer. These magnets are designed to hold notes, photos, and other lightweight items on the refrigerator door. The convenience of being able to easily attach and remove these items is made possible by the effective use of a magnetizer during the manufacturing process.Furthermore, the study of magnetizers extends into the field of research and development. Scientists and engineers continually seek to improve the efficiency and effectiveness of magnetizers to create stronger and more durable magnets. Innovations in this area can lead to advancements in various technologies, including renewable energy systems, where powerful magnets are essential for the operation of wind turbines and generators.In conclusion, the role of a magnetizer in modern technology cannot be overstated. From manufacturing to everyday applications, magnetizers play a vital role in creating and enhancing the magnetic properties of materials. As we continue to advance technologically, the understanding and application of magnetizers will remain an important aspect of both scientific research and practical engineering solutions. The future may hold even more exciting developments in the field of magnetism, driven by innovations in magnetizers and their applications.

在物理和工程领域，术语magnetizer指的是一种设备或工具，用于赋予材料磁性。这一过程在各种应用中至关重要，从电子产品到工业机械。理解magnetizer的工作原理可以为我们提供对磁学基本原理及其在日常生活中实际应用的深入见解。magnetizer的基本原理涉及材料内磁畴的排列。当铁等铁磁材料暴露于由magnetizer产生的强磁场时，材料内部的磁畴开始沿着磁场的方向排列。这种排列使材料本身转变为一个磁体，能够吸引或排斥其他磁性物体。magnetizer最常见的用途之一是在制造各种应用的磁铁。例如，在电动机的生产中，使用magnetizer来创建对电动机操作至关重要的永磁磁铁。这些磁铁有助于产生电动机高效运作所需的磁场。如果没有magnetizer的使用，高质量磁铁的生产将变得困难且不可靠。此外，magnetizers还被广泛应用于电子领域。许多电子设备，如扬声器和麦克风，依赖磁铁来产生声音。使用magnetizer可以确保这些设备中使用的磁铁具有正确的磁性，这直接影响其性能。通过控制磁化过程中磁场的强度和方向，工程师可以创造出满足特定声音质量和效率要求的组件。除了工业应用，magnetizers也可以在日常家居用品中找到。例如，许多冰箱磁铁是使用magnetizer制造的。这些磁铁旨在将便条、照片和其他轻便物品固定在冰箱门上。能够轻松附加和移除这些物品的便利性正是得益于在制造过程中有效使用magnetizer。此外，magnetizers的研究和开发也在不断推进。科学家和工程师不断寻求提高magnetizers的效率和效果，以创造更强大和更耐用的磁铁。在这一领域的创新可以推动各种技术的进步，包括可再生能源系统，其中强大的磁铁对于风力涡轮机和发电机的运行至关重要。总之，magnetizer在现代技术中的作用不可低估。从制造到日常应用，magnetizers在创造和增强材料的磁性方面发挥了重要作用。随着我们技术的不断进步，对magnetizers的理解和应用将继续成为科学研究和实用工程解决方案的重要方面。未来可能会在磁学领域带来更多令人兴奋的发展，这些发展将由magnetizers及其应用的创新驱动。