For the manufacture of high permeability Mn-Zn ferrite cores, the zinc loss from the surface of sintering cores causes poor yield rate of final products. This experiment uses the atmospherical protection to reduce the evaporation of zinc. The control of the oxygen partial pressure and flow rate precisely can reduce the zinc loss about 20% to 35%, but it is not enough to get a good distribution of permeability of products, i.e. the distribution of initial permeability from 12000 to 15000 per products about 14% before atmospherical control and 25% after atmospherical control, respectively. Combination with precise control and zinc vapor compensation can increase the yield rate 9% to 15%. Another experiment to manufacture high permeability Mn-Zn ferrite cores for 15000±30% in a batch type furnace (about 13 Kg / batch), is to use a new engineering method to protect sintering core to avoid vaporizing zinc vapor, the yield rate can be rapidly increased from 25% to 75% and the effective capacity of furnace can be at least twofold. It is successful to manufacture homogeneous and high permeability of Mn-Zn ferrites both increasing the quality of products and decreasing the operating costs.
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机译:为了制造高磁导率的Mn-Zn铁氧体磁芯,烧结芯表面的锌损失会导致最终产品的良率下降。该实验利用大气保护来减少锌的蒸发。精确控制氧分压和流量可以将锌损失降低约20%至35%,但这不足以使产品的渗透率得到良好的分布,即每种产品的初始渗透率从12000到15000大约在大气控制之前为14%,在大气控制之后为25%。结合精确控制和锌蒸气补偿,可以将收率提高9%至15%。另一个在间歇式炉(约13 Kg /批)中制造15000±30%的高磁导率Mn-Zn铁氧体磁芯的实验是使用一种新的工程方法来保护烧结磁芯以避免锌蒸气汽化,合格率可以可以从25%迅速提高到75%,并且熔炉的有效容量至少可以提高两倍。成功地制造出均匀且高磁导率的Mn-Zn铁氧体不仅可以提高产品质量,而且可以降低运营成本。
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