磁性组件

永磁体可以与不同种类的材料组合在一起形成磁系统,然后达到在特定空间中更牢固地保持铁磁负载或获得理想磁场的目的,以及为什么通常将磁组件视为常规解决方案在许多磁铁应用中?

磁性组件的优点

  • Enhanced mechanical strength.增强的机械强度。 Inherently brittle is a major problem during the application of固有的脆性是应用中的主要问题 烧结钕铁硼磁体, 烧结钐钴磁体 以及 铁氧体磁铁。 Repetitive mechanical shock between the working surface and attracted matters very likely to cause volume loss on magnets which will directly lead to the certain degree of deterioration of magnetic field or工作表面和被吸引物质之间的重复性机械冲击很可能导致磁铁上的体积损失,这将直接导致一定程度的磁场恶化或 引力。 Permanent magnets and other non-magnetic parts such as ferrous metal, non-ferrous metal or plastic can be combined to form a barrier and avoids damage during use.永磁体和其他非磁性零件(例如黑色金属,有色金属或塑料)可以结合在一起形成屏障,并避免在使用过程中损坏。
磁性组件1
  • Enhanced magnetic strength.增强的磁强度。 Besides mechanical strength, another biggest purpose of magnetic assemblies is certainly increasing magnetic characteristics.除了机械强度,磁性组件的另一个最大目的当然是提高磁性。 That is, assemblies have more obvious cost advantages in comparison with pure magnets under the same requirement of magnetic strength.即,在相同的磁性强度要求下,与纯磁体相比,组件具有更明显的成本优势。 Assemblies typically exhibit much higher attractive force compared with pure magnets due to flux conducting parts served in system which as an integral part of the whole magnetic circuit.与纯磁体相比,组件通常表现出更高的吸引力,这是因为在系统中使用的磁通传导部件是整个磁路的组成部分。 Magnetic field in a specific region also can be improved and focused by utilizing magnetic induction of flux conducting parts.通过利用磁通传导部件的磁感应,还可以改善和集中特定区域的磁场。 It also should be pointed out that even extremely small air gap between assemblies and attracted matters can dramatically influence the magnetic strength.还应该指出的是,即使组件之间极小的气隙和被吸引的物质也会极大地影响磁强度。
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  • 非磁性零件通常具有用于不同夹持应用的合并机构。