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A platform for research: civil engineering, architecture and urbanism
Ceramic holding furnace manufacturing process
The invention discloses a ceramic holding furnace manufacturing process. The manufacturing process comprises the following steps: S1, mixing raw materials: mixing 40-50% of aluminum oxide, 30-40% of titanium dioxide, 0-5% of aluminum nitride, 0-3% of zirconium oxide, 0-5% of magnesium oxide and 0-2% of silicon nitride in percentage by weight through a mixer; S2, ball milling: grinding the mixed raw materials by a ball mill, wherein the particle size of the ground raw materials ranges from 500 meshes to 800 meshes, and S3, granulation: drying the ground powder, and adding an adhesive. Aluminumoxide, titanium dioxide, aluminum nitride, zirconium oxide, magnesium oxide, and silicon nitride are mixed according to a certain ratio to form a raw material; the raw material is ball-milled to obtain fine powder; the fine powder is prepared into granules with good fluidity by a granulator, a mold is conveniently and fully filled with the granules, molding processing is conducted by an isostaticpress, and finally the fired ceramic holding furnace has a good cracking resistant and slag-adhering resistant performance. The production quality of the ceramic holding furnace is guaranteed.
本发明公开了一种陶瓷保温炉制造工艺,包括以下步骤:S1:原材料混合:将材料配比为氧化铝40‑50%、钛白粉30‑40%、氮化铝0‑5%、氧化锆0‑3%、氧化镁0‑5%、氮化硅0‑2%的原材料通过混合机进行混合;S2:球磨:通过球磨机对混合好的原材料进行研磨粉碎,研磨后的原材料颗粒尺寸为500‑800目粒度,S3:造粒:将磨细的粉料,经过干燥、加胶黏剂。将氧化铝、钛白粉、氮化铝、氧化锆、氧化镁和氮化硅按一定的配比进行混合构成的原材料并通过球磨加工成细粉并通过造粒机制造成流动性好的颗粒料方便更加充分的填充在模具中并通过等静压机进行成型加工最后烧制成的陶瓷保温炉具有较好的抗裂痕和防挂渣的能力,保证陶瓷保温炉的生产质量。
Ceramic holding furnace manufacturing process
The invention discloses a ceramic holding furnace manufacturing process. The manufacturing process comprises the following steps: S1, mixing raw materials: mixing 40-50% of aluminum oxide, 30-40% of titanium dioxide, 0-5% of aluminum nitride, 0-3% of zirconium oxide, 0-5% of magnesium oxide and 0-2% of silicon nitride in percentage by weight through a mixer; S2, ball milling: grinding the mixed raw materials by a ball mill, wherein the particle size of the ground raw materials ranges from 500 meshes to 800 meshes, and S3, granulation: drying the ground powder, and adding an adhesive. Aluminumoxide, titanium dioxide, aluminum nitride, zirconium oxide, magnesium oxide, and silicon nitride are mixed according to a certain ratio to form a raw material; the raw material is ball-milled to obtain fine powder; the fine powder is prepared into granules with good fluidity by a granulator, a mold is conveniently and fully filled with the granules, molding processing is conducted by an isostaticpress, and finally the fired ceramic holding furnace has a good cracking resistant and slag-adhering resistant performance. The production quality of the ceramic holding furnace is guaranteed.
本发明公开了一种陶瓷保温炉制造工艺,包括以下步骤:S1:原材料混合:将材料配比为氧化铝40‑50%、钛白粉30‑40%、氮化铝0‑5%、氧化锆0‑3%、氧化镁0‑5%、氮化硅0‑2%的原材料通过混合机进行混合;S2:球磨:通过球磨机对混合好的原材料进行研磨粉碎,研磨后的原材料颗粒尺寸为500‑800目粒度,S3:造粒:将磨细的粉料,经过干燥、加胶黏剂。将氧化铝、钛白粉、氮化铝、氧化锆、氧化镁和氮化硅按一定的配比进行混合构成的原材料并通过球磨加工成细粉并通过造粒机制造成流动性好的颗粒料方便更加充分的填充在模具中并通过等静压机进行成型加工最后烧制成的陶瓷保温炉具有较好的抗裂痕和防挂渣的能力,保证陶瓷保温炉的生产质量。
Ceramic holding furnace manufacturing process
一种陶瓷保温炉制造工艺
ZHANG GUANGXIANG (author) / LI XIN (author) / FENG LINGYUN (author) / CHANG XINBO (author) / YANG CHENGDONG (author)
2020-09-18
Patent
Electronic Resource
Chinese
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