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Nickel-zinc ferrite formula and zinc plating forming method
The invention discloses a nickel-zinc ferrite formula, which is used for enabling the sintering shrinkage rate and the sintering temperature of a nickel-zinc material to tend to be consistent. The formula comprises following components in percentage by weight: 47.5 to 49.3% of iron oxide; 17.5 to 28% of nickel oxide; 20 to 26.5% of zinc oxide; and 0 to 15% of copper oxide. By adjusting the formulaof a nickel-zinc material and the formula of a manganese-zinc material, the sintering shrinkage rates and the sintering temperatures of the nickel-zinc material and the manganese-zinc material tend to be consistent and range from 1200 DEG C to 1300 DEG C, and meanwhile, the sintering is carried out by adopting a control atmosphere, so that a nickel-zinc ferrite product can be prepared from the raw materials.
本发明公开了一种镍锌铁氧体配方,用于将镍锌材料的烧结收缩率和烧结温度趋于一致;其中配方的百分比含量如下:氧化铁47.5‑49.3;氧化镍17.5‑28;氧化锌20‑26.5;氧化铜:0‑15。本发明通过调节镍锌材料的配方和锰锌的配方,使得两者的烧结收缩率和烧结温度趋于一致,且介于1200~1300摄氏度之间,同时采用控制气氛进行烧结,使得原材料共做一个镍锌铁氧体产品变得可行。
Nickel-zinc ferrite formula and zinc plating forming method
The invention discloses a nickel-zinc ferrite formula, which is used for enabling the sintering shrinkage rate and the sintering temperature of a nickel-zinc material to tend to be consistent. The formula comprises following components in percentage by weight: 47.5 to 49.3% of iron oxide; 17.5 to 28% of nickel oxide; 20 to 26.5% of zinc oxide; and 0 to 15% of copper oxide. By adjusting the formulaof a nickel-zinc material and the formula of a manganese-zinc material, the sintering shrinkage rates and the sintering temperatures of the nickel-zinc material and the manganese-zinc material tend to be consistent and range from 1200 DEG C to 1300 DEG C, and meanwhile, the sintering is carried out by adopting a control atmosphere, so that a nickel-zinc ferrite product can be prepared from the raw materials.
本发明公开了一种镍锌铁氧体配方,用于将镍锌材料的烧结收缩率和烧结温度趋于一致;其中配方的百分比含量如下:氧化铁47.5‑49.3;氧化镍17.5‑28;氧化锌20‑26.5;氧化铜:0‑15。本发明通过调节镍锌材料的配方和锰锌的配方,使得两者的烧结收缩率和烧结温度趋于一致,且介于1200~1300摄氏度之间,同时采用控制气氛进行烧结,使得原材料共做一个镍锌铁氧体产品变得可行。
Nickel-zinc ferrite formula and zinc plating forming method
一种镍锌铁氧体配方及镀锌成型方法
XU YONGXIANG (author) / ZHANG ZHENHUA (author) / YE HONGYAN (author)
2020-10-20
Patent
Electronic Resource
Chinese
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