Have you ever encountered this situation – the mechanically processed ferrous materials stick together, seriously affecting the efficiency of subsequent processes. Or the magnetism of the magnetic components is too strong to achieve the expected design effect. If you have been troubled by these problems, you have come to the right place. Now, I will […]
5 demagnetization methods and 4 types of demagnetization systems. Read More »
A hotly debated question in the magnet industry: Will permanent magnets demagnetize, i.e. lose their magnetism? Although permanent magnets should theoretically be able to maintain their magnetism for hundreds of years without external influences.However, magnets used in practical applications will face various complex external environments and cause demagnetization. Now, let me take you through the
Factors that cause magnet demagnetization and how to avoid it. Read More »
Neodymium (Neo) magnets, especially N52, N54, and N55, are among the strongest available today. But which one is truly the most powerful? Beyond strength, factors like heat resistance and magnetic field range also matter.This article compares N52, N54, and N55 magnets, examining their differences in performance and applications. We’ll also explore what defines the strongest
N52 vs N54 vs N55 Magnets: Which is the Strongest Magnets? Read More »
From our previous magnetic chuck type blog, we know that the magnetic field of any magnetic chuck tightly attracts the workpiece in contact with the plate surface through the magnetic conductive plate. In order to achieve a reliable magnetic adsorption effect, the magnetic chuck needs to be designed in a targeted manner based on the
Magnetic Chuck Pole Styles, Widths, and Maintenance Guide. Read More »
Through the previous article on magnetic chuck types, we have learned about the working principles and characteristics of different magnetic chucks. But do you know what structures and materials these magnetic chucks are made of? Come and follow me as I dissect and analyze it. Structural Composition of Magnetic Chuck. It is as important for us
Analysis of the magnetic chuck structure and required materials. Read More »
In the field of precision machining, the importance of ensuring that workpieces are machined safely and reliably cannot be overstated. As machining practitioners, we all know that the accuracy of operations directly affects product quality and operating efficiency. Magnetic chucks, as commonly used instruments and equipment control devices for fixing ferromagnetic workpieces in modern industry,
The Three Main Magnetic Chuck Types and Selection Guide. Read More »
Magnet grade, as an abbreviation for quickly identifying magnet performance in the industry, is the basic knowledge that practitioners in the magnetic industry must master. There may be some cross-industry buyers or purchasers who are new to magnets who are not very clear about the concept of magnet grades. In order to help everyone clear
Neodymium magnet grades and key performance guide. Read More »
In the field of modern magnet manufacturing, the efficiency and performance of NdFeB (neodymium iron boron) magnets are self-evident. The reason for the strong magnetic field of neodymium magnets is not only its raw materials, but also the manufacturing process. The powder making process is very important. Traditional powder metallurgy methods have certain limitations in
Hydrogen Decrepitation in the Production of NdFeB Magnets. Read More »
What is a Neodymium Magnet? Characteristics of Rare Earth Neodymium Magnets. What are the Common Shapes of Neodymium Magnets? What is the Difference Between Neodymium Magnets And Ferrites? Maximum Working Temperature of Neodymium Magnets. FAQ. For a given application, the choice between ferrite magnet vs neodymium is very quickly made complex by many factors. Although
Comparison of Neodymium and Ferrite Magnets Read More »
What Are The Surface Treatment Processes For Magnets? What Types of Magnet Coatings are there? Common Types Of Multi-Layer Coating Combinations In High-Performance Magnets. FAQ. Magnets are used in many industries from electronics to healthcare to renewable energy to manufacturing. But although the magnetic core is the heart of the application, the coating or plating
Common Magnet Coating Types and Combinations. Read More »
Osencmag is a leading supplier of custom neodymium magnets and magnetic components. Over the years, we have accumulated rich experience and established extensive and reliable factory resources. Various manufacturing resources and diversified processes provide customers with tailor-made, efficient and reliable magnetic solutions, reducing communication costs and improving efficiency for customers. Always believe: end-to-chain efficiency is greater than end-to-end.
Copyright © 2025 Osencmag Magnet Co., Ltd
