NdFeB flat disc magnets are generally magnetized in the axial direction, and the axial magnetization is that one circular plane is the north pole and the other plane is the south pole. The distance between the planes (disk thickness) is the distance between the magnetic poles. The magnets are magnetized along the central axis of the neodymium disc magnet. Flat Neodymium magnets are supplied as axial magnetized NdFeB magnets unless otherwise stated. Our industrial magnets are used to regulate various functions. Designed and manufactured to exacting standards. Excellent customer service. Get a 24/7 quote by phone.
Fullzen Technology as a leading custom magnet manufacturer, provide OEM & ODM customize service , will help you resolve your custom neodymium magnet disc requirements. ISO 9001 certified. Experienced manufacturer.
China's professional disc neodymium magnet manufacturer, large-scale production. We provide different grades, sizes, and can be customized, contact us now! Neodymium planar disc magnets are the strongest permanent magnets. Rare earth magnets are mainly used in applications that require the generation of a magnetic field in a defined area with a specific magnetic field distribution. The diameter of a disc neodymium magnet has a direct effect on holding force, pulling force and magnetic field distribution. Neodymium flat magnets are mainly used as sensor magnets, motor magnets, medical equipment magnets, handicraft magnets, consumer electronics magnets and stationary magnets.
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In general, thicker neodymium magnets can be stronger than thinner ones. This is because the strength of a neodymium magnet depends on its volume and the amount of neodymium alloy material it contains.Thicker magnets have a larger volume and, therefore, can contain more neodymium alloy material. This results in a higher magnetic strength or magnetic flux density. Thicker magnets also have a higher maximum energy product, which is a measure of their magnetic performance.However, it's important to note that the thickness of a neodymium magnet is not the only factor that determines its strength. Factors such as the grade of the magnet (indicated by the "N" number, like N52 or N35), the shape of the magnet, and the magnetization process also play a significant role in determining its overall strength.So, while thicker magnets can generally be stronger, other factors must be considered when evaluating the magnetic strength of a neodymium magnet.
Neodymium magnets are a type of permanent magnets and are known to be one of the strongest commercially available magnets. The term "neodymium magnets" is often used interchangeably with "rare-earth magnets" because they primarily consist of neodymium, iron, and boron.Compared to other types of magnets like ceramic or alnico magnets, neodymium magnets have significantly higher magnetic properties. They have greater magnetic strength or magnetic flux density, making them stronger magnets overall.That being said, it's important to consider the specific grade or composition of the neodymium magnet, as different grades have different levels of magnetic strength. The grade is usually indicated by a combination of numbers and letters, such as N52 or N35. The higher the grade number, the stronger the neodymium magnet will be.
Unfortunately, it is not possible to easily make a magnet more powerful once it has been manufactured. The magnetic strength of a magnet is determined by its composition and manufacturing process.If you are looking for a more powerful magnet, you may need to purchase one with a higher grade or stronger material. As mentioned earlier, neodymium magnets are generally the strongest commercially available magnets. By selecting a neodymium magnet with a higher grade, you can obtain a more powerful magnet.It is important to note that handling strong magnets, such as neodymium magnets, requires caution and proper safety measures. These magnets can be very strong and have the potential to cause injury or damage if mishandled.
Freezing magnets does not make them stronger. Magnet strength is determined by the material and manufacturing process, not by temperature. Freezing a magnet simply lowers the temperature and does not have any effect on its magnetic properties. However, it's worth noting that extreme temperatures can affect the magnetism of certain types of magnets, such as reducing the permanent magnetism of ferrite magnets. Nevertheless, in general freezing a magnet will not make it stronger.
Fullzen Magnetics has more than 10 years of experience in the design and manufacture of custom rare earth magnets. Send us a request for quote or contact us today to discuss your project's specialty requirements, and our experienced team of engineers will help you determine the most cost effective way of providing you with what you need.Send us your specifications detailing your custom magnet application.