CN111675532A - 一种陶瓷保温炉制造工艺 - Google Patents
一种陶瓷保温炉制造工艺 Download PDFInfo
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Abstract
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。
Description
技术领域
本发明涉及陶瓷保温炉生产技术领域,具体为一种陶瓷保 温炉制造工艺。
背景技术
陶瓷的发展史是中华文明史的一个重要的组成部分,为人 类社会的进步和发展做出了卓越的贡献,陶瓷制品以其易于洗 涤、热稳定性较好、化学性质稳定、经久耐用、吸水率低、彩 绘装饰丰富多彩等优点,受到了全世界人民的青睐,随着社会 的发展和生产力的提高越来越多的陶瓷制品被广泛的应用于人 们的生活中,而陶瓷保温炉作为陶瓷制品的一种被广泛的应用 于人们的生活和生产中。
本发明的申请人发现现有的陶瓷保温炉在生产加工时是选 用耐火材料并采用浇筑的方式进行加工成型,这种加工制造出 来的陶瓷保温炉容易出现裂痕和挂渣的情况影响陶瓷保温炉的 生产质量。
发明内容
本发明的目的在于提供一种陶瓷保温炉制造工艺,旨在改 善现有的陶瓷保温炉容易出现裂痕和挂渣的问题。
本发明是这样实现的:
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,通过造 粒机制成流动性好、颗粒直径为5-10μm的颗粒;
S4:等静压机成型:将造粒好的原材料装入模具中,在将 装有原材料的模具放入等静压机的液体容器中,将压力调至 150MP进行压制成型;
S5:毛坯加工:对成型后的毛坯的边口上的毛边进行清除, 并将模缝迹进行修平处理;
S6:毛坯烧制:将修整好之后的毛坯放置在高温烧结炉中 进行烧制,炉温调至为1600℃;
S7:精加工:通过研磨抛光对烧制好的陶瓷保温炉进行表 面光洁度加工;
S8:检验包装:对加工好的陶瓷保温炉吸水率、热稳定性 和铅、镉溶出量等是否符合要求进行检测,并对陶瓷保温炉的 外观质量进行检测,检测合格后进行包装发货。
与现有技术相比,本发明的有益效果是:
通过氧化铝、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。
具体实施方式
为使本发明实施方式的目的、技术方案和优点更加清楚, 下面对本发明实施方式中的技术方案进行清楚、完整地描述, 显然,所描述的实施方式是本发明一部分实施方式,而不是全 部的实施方式。基于本发明中的实施方式,本领域普通技术人 员在没有作出创造性劳动前提下所获得的所有其他实施方式, 都属于本发明保护的范围。因此,以下对提供的本发明的实施 方式的详细描述并非旨在限制要求保护的本发明的范围,而是 仅仅表示本发明的选定实施方式。
实施例1,一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%和钛白粉30%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目粒度;
S3:造粒:将磨细的粉料,经过干燥、加胶黏剂,通过造 粒机制成流动性好、颗粒直径为5的颗粒;
S4:等静压机成型:将造粒好的原材料装入模具中,在将 装有原材料的模具放入等静压机的液体容器中,将压力调至 150MP进行压制成型;
S5:毛坯加工:对成型后的毛坯的边口上的毛边进行清除, 并将模缝迹进行修平处理;
S6:毛坯烧制:将修整好之后的毛坯放置在高温烧结炉中 进行烧制,炉温调至为1600℃;
S7:精加工:通过研磨抛光对烧制好的陶瓷保温炉进行表 面光洁度加工;
S8:检验包装:对加工好的陶瓷保温炉吸水率、热稳定性 和铅、镉溶出量等是否符合要求进行检测,并对陶瓷保温炉的 外观质量进行检测,检测合格后进行包装发货。
实施例2,一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45%、钛白粉35%、 氮化铝2.5%、氧化锆1.5%、氧化镁2.5%、氮化硅1%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650目粒度;
S3:造粒:将磨细的粉料,经过干燥、加胶黏剂,通过造 粒机制成流动性好、颗粒直径为7.5μm的颗粒;
S4:等静压机成型:将造粒好的原材料装入模具中,在将 装有原材料的模具放入等静压机的液体容器中,将压力调至 150MP进行压制成型;
S5:毛坯加工:对成型后的毛坯的边口上的毛边进行清除, 并将模缝迹进行修平处理;
S6:毛坯烧制:将修整好之后的毛坯放置在高温烧结炉中 进行烧制,炉温调至为1600℃;
S7:精加工:通过研磨抛光对烧制好的陶瓷保温炉进行表 面光洁度加工;
S8:检验包装:对加工好的陶瓷保温炉吸水率、热稳定性 和铅、镉溶出量等是否符合要求进行检测,并对陶瓷保温炉的 外观质量进行检测,检测合格后进行包装发货。
实施例3,一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50%、钛白粉40%、 氮化铝5%、氧化锆3%、氧化镁5%、氮化硅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800目粒度;
S3:造粒:将磨细的粉料,经过干燥、加胶黏剂,通过造 粒机制成流动性好、颗粒直径为10μm的颗粒;
S4:等静压机成型:将造粒好的原材料装入模具中,在将 装有原材料的模具放入等静压机的液体容器中,将压力调至 150MP进行压制成型;
S5:毛坯加工:对成型后的毛坯的边口上的毛边进行清除, 并将模缝迹进行修平处理;
S6:毛坯烧制:将修整好之后的毛坯放置在高温烧结炉中 进行烧制,炉温调至为1600℃;
S7:精加工:通过研磨抛光对烧制好的陶瓷保温炉进行表 面光洁度加工;
S8:检验包装:对加工好的陶瓷保温炉吸水率、热稳定性 和铅、镉溶出量等是否符合要求进行检测,并对陶瓷保温炉的 外观质量进行检测,检测合格后进行包装发货。
工作原理: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,混合之后的原料通过球磨机进行研磨 粉碎,研磨后的原材料颗粒尺寸为500-800目粒度然后将磨细 的粉料,经过干燥、加胶黏剂,通过造粒机制成流动性好、颗 粒直径为5-10μm的颗粒,将造粒好的原材料装入模具中,在 将装有原材料的模具放入等静压机的液体容器中,将压力调至 150MP进行压制成型,对成型后的毛坯的边口上的毛边进行清 除,并将模缝迹进行修平处理,将修整好之后的毛坯放置在高 温烧结炉中进行烧制,炉温调至为1600℃,通过研磨抛光对烧 制好的陶瓷保温炉进行表面光洁度加工最后对加工好的陶瓷保 温炉吸水率、热稳定性和铅、镉溶出量等是否符合要求进行检 测,并对陶瓷保温炉的外观质量进行检测,检测合格后进行包 装发货完成陶瓷保温炉的生产加工。
通过上述设计得到的装置已基本能满足现有的陶瓷保温炉 不易出现裂痕和挂渣的使用,但本着进一步完善其功能的宗旨, 设计者对该装置进行了进一步的改良。
以上所述仅为本发明的优选实施方式而已,并不用于限制 本发明,对于本领域的技术人员来说,本发明可以有各种更改 和变化。凡在本发明的精神和原则之内,所作的任何修改、等 同替换、改进等,均应包含在本发明的保护范围之内。
Claims (1)
1.一种陶瓷保温炉制造工艺,其特征在于包括以下步骤:
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,通过造粒机制成流动性好、颗粒直径为5-10μm的颗粒;
S4:等静压机成型:将造粒好的原材料装入模具中,在将装有原材料的模具放入等静压机的液体容器中,将压力调至150MP进行压制成型;
S5:毛坯加工:对成型后的毛坯的边口上的毛边进行清除,并将模缝迹进行修平处理;
S6:毛坯烧制:将修整好之后的毛坯放置在高温烧结炉中进行烧制,炉温调至为1600℃;
S7:精加工:通过研磨抛光对烧制好的陶瓷保温炉进行表面光洁度加工;
S8:检验包装:对加工好的陶瓷保温炉吸水率、热稳定性和铅、镉溶出量等是否符合要求进行检测,并对陶瓷保温炉的外观质量进行检测,检测合格后进行包装发货。
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