Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Zinc magnesium oxide material and preparation method thereof
The invention belongs to the technical field of target material production, and discloses a preparation method of a zinc magnesium oxide material, the method comprises the following steps: mixing magnesium oxide powder and zinc oxide powder in a mixer to obtain powder, the mass ratio of the magnesium oxide powder to the zinc oxide powder is (1-15): (85-99), then mixing PVA, pure water and the powder to obtain a mixture, the mass ratio of the PVA to the pure water to the powder is (1-3): (3-5): (92-96); then ball-milling and drying the mixture to obtain a dried material; putting the dried material into a tubular atmosphere furnace, heating to 200 DEG C at a heating rate of 3-5 DEG C/min, heating to 500-600 DEG C at a heating rate of 0.5-1 DEG C/min, preserving heat for 3.5-5 hours, heating to 900-1000 DEG C at a heating rate of 3-5 DEG C/min, and preserving heat for 1.5-2.5 hours; a rough burning body is obtained; and finally, the rough burning body is put into a vacuum hot pressing furnace to be subjected to hot pressing sintering, cooling, demolding and processing, and the high-density and low-carbon-content zinc-magnesium-oxygen material is obtained.
本申请属于靶材生产技术领域,公开了一种锌镁氧材料的制备方法,该方法先将氧化镁粉末和氧化锌粉末在混料机中混合,得到粉体,且氧化镁粉末与氧化锌粉末的质量比为1~15:85~99,再将PVA、纯水和粉体混合,得到混合料,其中PVA、纯水和粉体的质量比为1~3:3~5:92~96;随后将混合料球磨、烘干,得到烘干料;再将烘干料装入管式气氛炉中,以3~5℃/min的升温速率,升温到200℃,再以0.5~1℃/min,升温到500~600℃,保温3.5~5h,然后以3~5℃/min,升温到900~1000℃,保温1.5~2.5h;得到粗烧体;最后将粗烧体放入真空热压炉中热压烧结、降温、脱模、加工,得到具有高致密度、低碳含量的锌镁氧材料,此外,本申请还公开了一种锌镁氧材料。
Zinc magnesium oxide material and preparation method thereof
The invention belongs to the technical field of target material production, and discloses a preparation method of a zinc magnesium oxide material, the method comprises the following steps: mixing magnesium oxide powder and zinc oxide powder in a mixer to obtain powder, the mass ratio of the magnesium oxide powder to the zinc oxide powder is (1-15): (85-99), then mixing PVA, pure water and the powder to obtain a mixture, the mass ratio of the PVA to the pure water to the powder is (1-3): (3-5): (92-96); then ball-milling and drying the mixture to obtain a dried material; putting the dried material into a tubular atmosphere furnace, heating to 200 DEG C at a heating rate of 3-5 DEG C/min, heating to 500-600 DEG C at a heating rate of 0.5-1 DEG C/min, preserving heat for 3.5-5 hours, heating to 900-1000 DEG C at a heating rate of 3-5 DEG C/min, and preserving heat for 1.5-2.5 hours; a rough burning body is obtained; and finally, the rough burning body is put into a vacuum hot pressing furnace to be subjected to hot pressing sintering, cooling, demolding and processing, and the high-density and low-carbon-content zinc-magnesium-oxygen material is obtained.
本申请属于靶材生产技术领域,公开了一种锌镁氧材料的制备方法,该方法先将氧化镁粉末和氧化锌粉末在混料机中混合,得到粉体,且氧化镁粉末与氧化锌粉末的质量比为1~15:85~99,再将PVA、纯水和粉体混合,得到混合料,其中PVA、纯水和粉体的质量比为1~3:3~5:92~96;随后将混合料球磨、烘干,得到烘干料;再将烘干料装入管式气氛炉中,以3~5℃/min的升温速率,升温到200℃,再以0.5~1℃/min,升温到500~600℃,保温3.5~5h,然后以3~5℃/min,升温到900~1000℃,保温1.5~2.5h;得到粗烧体;最后将粗烧体放入真空热压炉中热压烧结、降温、脱模、加工,得到具有高致密度、低碳含量的锌镁氧材料,此外,本申请还公开了一种锌镁氧材料。
Zinc magnesium oxide material and preparation method thereof
一种锌镁氧材料及其制备方法
YU FANG (Autor:in) / WEN CHONGBIN (Autor:in) / TONG PEIYUN (Autor:in)
20.02.2024
Patent
Elektronische Ressource
Chinesisch
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