magnetizable

简明释义

英[/ˈmæɡnɪtaɪzəbl/]美[/ˈmæɡnɪtaɪzəbl/]

adj. 可磁化的；能产生磁性的

英英释义

单词用法

同义词

反义词

例句

1.Based on the fact that magnetic fields can permeate non-magnetizable metals, it is possible to detect a permanent magnet attached to the piston through the aluminium wall of the cylinder.

基于这一事实，即磁场可以渗透到非磁化的金属，它可以检测到一个永久磁铁重视通过气缸壁铝活塞。

2.A defect in the magnetizable surface coating (for example, on magnetic disc) consisting of a raised or thick area.

在磁性表层上(如磁盘上)的缺陷，包括隆起的区域或厚的区域。

3.Based on the fact that magnetic fields can permeate non-magnetizable metals, it is possible to detect a permanent magnet attached to the piston through the aluminium wall of the cylinder.

基于这一事实，即磁场可以渗透到非磁化的金属，它可以检测到一个永久磁铁重视通过气缸壁铝活塞。

4.Magnetic disk is a flat circular plate with a magnetizable surface layer on which data can be stored by magnetic recording.

磁盘是一种带有可磁化层的扁平圆盘，在其表层上可用磁记录方式存储数据。

5.Techniques based on using of these biocompatible magnetizable complex systems have found application in numerous biological fields viz.

以这些生物兼容的磁性复合物为基础开发的各种技术，已经在众多生物学领域被使用。

6.The effect of carrier fluid, surfactant, magnetizable particle, polishing abrasives and pH value on the finishing surface of optical glass is described.

讨论了适用于光学玻璃抛光的磁流变液的配制机理及磁流变液对光学玻璃抛光效果的影响因素。

7.Objective: to explore the mechanical properties of laser welds of Fe-Cr-Mo magnetizable alloy and cobalt-chromium alloy so as to give reference for clinical work.

目的：测试激光焊接铁铬钼软磁合金与钴铬合金的机械性能，为临床应用提供参考。

8.The magnetizable layer comprises a magnetic pigment dispersed in a cured binder.

该可磁化层包括一种分散在一种固化粘合剂中的磁性颜料。

9.Finally, boundary conditions and constitutive equations which satisfy the principle of objectivity are obtained for polarizable and magnetizable thermo-elastic solids.

最后，对可极化和可磁化的热弹性体，得到了满足客观性原理的本构方程及相应的边界条件。

10.But now databases are commonly recorded on magnetizable media, and computer programs are required to perform the necessary storage and retrieval operations.

但是，现在数据库很普遍的被记录在磁化媒介上，而且计算机应用程序利用它执行必要的存储和检索操作。

11.In the lab, we tested various alloys to see which ones are magnetizable.

在实验室，我们测试了各种合金以查看哪些是可磁化的。

12.The research showed that the polymer can be made magnetizable by adding iron particles.

研究表明，通过添加铁颗粒，可以使聚合物变得可磁化。

13.The new material developed for the motor is highly magnetizable.

为电动机开发的新材料具有很高的磁化能力。

14.Certain types of steel are known to be magnetizable under specific conditions.

某些类型的钢在特定条件下被认为是可磁化的。

15.The engineers focused on creating a magnetizable core for the transformer.

工程师们专注于为变压器创造一个磁化的核心。

作文

The concept of magnetism has fascinated scientists and laypeople alike for centuries. One of the key aspects of magnetism is the property of materials to become magnetized. This property can be described with the term magnetizable, which refers to the ability of a material to be influenced by a magnetic field and to acquire magnetic properties. Understanding magnetizable materials is crucial in various fields, including physics, engineering, and even medicine.In everyday life, we encounter many objects that demonstrate magnetic properties. For example, refrigerator magnets are made from materials that are highly magnetizable. These magnets stick to the metal surface of the refrigerator because the metal has the ability to become magnetized when exposed to a magnetic field. This ability allows us to utilize magnets for practical purposes, such as holding notes or photographs on our fridge.The study of magnetizable materials goes beyond household items. In the realm of technology, magnetizable materials play a vital role in data storage. Hard drives, for instance, use magnetic disks coated with magnetizable substances to store information. When data is written to the disk, the magnetizable coating is altered in a way that represents the binary data. This process relies on the material's capacity to be magnetized and demagnetized repeatedly, allowing for efficient data retrieval.Moreover, the medical field also benefits from magnetizable materials. Magnetic resonance imaging (MRI) is a technique that uses strong magnetic fields and radio waves to create detailed images of the organs and tissues inside the body. The effectiveness of MRI scans depends significantly on the magnetizable properties of certain materials within the human body, such as water molecules. The interaction between the magnetic field and these magnetizable substances allows doctors to visualize internal structures non-invasively, leading to better diagnoses and treatment plans.In industrial applications, magnetizable materials are essential for creating electric motors and generators. These machines rely on the principles of electromagnetism, where magnetizable materials are used to convert electrical energy into mechanical energy and vice versa. The efficiency and performance of these machines depend heavily on the quality of the magnetizable materials used in their construction.Understanding the properties and behaviors of magnetizable materials also opens up new avenues for research and development. Scientists are continuously exploring new materials that exhibit enhanced magnetizable characteristics. For instance, nanotechnology has introduced the possibility of creating magnetizable materials at a nanoscale level, which could lead to breakthroughs in various applications, from more efficient electronics to advanced medical devices.In conclusion, the term magnetizable encapsulates a fundamental aspect of magnetism that is crucial across multiple domains. From everyday items like refrigerator magnets to sophisticated technologies like MRI machines and electric motors, magnetizable materials are integral to our modern world. As we continue to investigate and innovate, the potential of magnetizable materials will undoubtedly shape the future of science and technology, making it an exciting area of study for generations to come.

磁性这一概念几个世纪以来一直吸引着科学家和普通人。磁性的一个关键方面是材料被磁化的属性。这个属性可以用术语magnetizable来描述，指的是材料被磁场影响并获得磁性特性的能力。理解magnetizable材料在物理学、工程学甚至医学等多个领域中至关重要。在日常生活中，我们会遇到许多展示磁性特性的物体。例如，冰箱磁铁是由高度magnetizable的材料制成的。这些磁铁之所以能粘在冰箱的金属表面上，是因为金属在暴露于磁场时具有被磁化的能力。这种能力使我们能够将磁铁用于实际目的，例如在冰箱上固定便条或照片。对magnetizable材料的研究超越了家庭用品。在技术领域，magnetizable材料在数据存储中发挥着至关重要的作用。例如，硬盘驱动器使用涂有magnetizable物质的磁盘来存储信息。当数据写入磁盘时，magnetizable涂层以某种方式被改变，以表示二进制数据。这个过程依赖于材料反复被磁化和去磁化的能力，从而允许高效的数据检索。此外，医疗领域也受益于magnetizable材料。磁共振成像（MRI）是一种利用强磁场和无线电波创建身体内部器官和组织的详细图像的技术。MRI扫描的有效性在很大程度上取决于人体内某些材料的magnetizable特性，例如水分子。磁场与这些magnetizable物质之间的相互作用使医生能够无创地可视化内部结构，从而导致更好的诊断和治疗方案。在工业应用中，magnetizable材料对于制造电动机和发电机至关重要。这些机器依赖于电磁学原理，其中magnetizable材料被用来将电能转化为机械能，反之亦然。这些机器的效率和性能在很大程度上依赖于其构造中所使用的magnetizable材料的质量。理解magnetizable材料的特性和行为也为研究和开发开辟了新的途径。科学家们不断探索具有增强magnetizable特性的新的材料。例如，纳米技术引入了在纳米级别上创建magnetizable材料的可能性，这可能会导致在各种应用中的突破，从更高效的电子设备到先进的医疗设备。总之，术语magnetizable概括了磁性的一项基本方面，这在多个领域中至关重要。从日常物品如冰箱磁铁到复杂的技术如MRI机器和电动机，magnetizable材料是我们现代世界不可或缺的一部分。随着我们继续进行调查和创新，magnetizable材料的潜力无疑将塑造科学和技术的未来，使其成为几代人令人兴奋的研究领域。