CN110092648A - 一种中温环保日用陶瓷及其制备方法 - Google Patents
一种中温环保日用陶瓷及其制备方法 Download PDFInfo
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Abstract
本发明公开了一种中温环保日用陶瓷及其制备方法,所述陶瓷由以下重量份原料制成:氧化铅10‑15份、二氧化硅15‑20份、三氧化二硼2‑5份、三氧化二铝3‑5份、氧化钙2‑5份、氧化锌4‑8份、氧化钠3‑6份、氧化钾4‑9份,氧化镍1‑3份、龙岩高岭土4‑7份,方解石5‑10份、氧化锂3‑5份和氧化镁1‑3份,本发明在生产过程中首先不会产生有害气体,不会造成空气污染与人体的副作用,烧制过程中,通过高温让方解石和龙岩高岭土与氧化锂充分反应,让陶瓷可以更加坚固,而通过氧化镍可以让陶瓷本身可以更加稳定,热敏性更高,防止了陶瓷破损,氧化铅是制作新型陶瓷中主要用作合成钛酸铅的主要原料,也可以让陶瓷上色,提升陶瓷的美感。
Description
技术领域
本发明涉及日用陶瓷及技术领域,具体为一种中温环保日用陶瓷及其制备方法。
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,中国作为四大文明古国之一,为人类社会的进步和发展做出了卓越的贡献,其中陶瓷的发明和发展更具有独特的意义,中国历史上各朝各代有着不同艺术风格和不同技术特点,英文中的"china"既有中国的意思,又有陶瓷的意思,清楚地表明了中国就是"陶瓷的故乡",早在欧洲人掌握瓷器制造技术一千多年前,汉族就已经制造出很精美的陶瓷,中国是世界上最早应用陶器的国家之一,而中国瓷器因其极高的实用性和艺术性而备受世人的推崇,随着近代科学技术的发展,近百年来又出现了许多新的陶瓷品种,它们不再使用或很少使用粘土、长石、石英等传统陶瓷原料,而是使用其他特殊原料,甚至扩大到非硅酸盐,非氧化物的范围,并且出现了许多新的工艺,美国和欧洲一些国家的文献已将“Ceramic”一词理解为各种无机非金属固体材料的通称,因此陶瓷的含义实际上已远远超越过去狭窄的传统观念了。
但是目前市场上的中温环保日用陶瓷及其制备方法不能为让陶瓷可以更加坚固让陶瓷本身可以更加稳定,而在制备过程中,不可以正常挥发陶瓷制品中的部分有毒物质,容易出现污染,无法保证陶瓷自身的品质与出厂的品质。
发明内容
本发明提供一种中温环保日用陶瓷及其制备方法,可以有效解决上述背景技术中提出不能为让陶瓷可以更加坚固让陶瓷本身可以更加稳定,而在制备过程中,不可以正常挥发陶瓷制品中的部分有毒物质,容易出现污染,无法保证陶瓷自身的品质与出厂的品质的问题。
为实现上述目的,本发明提供如下技术方案:一种中温环保日用陶瓷,所述陶瓷由以下重量份原料制成:氧化铅10-15份、二氧化硅15-20份、三氧化二硼2-5份、三氧化二铝3-5份、氧化钙2-5份、氧化锌4-8份、氧化钠3-6份、氧化钾4-9份,氧化镍1-3份、龙岩高岭土4-7份,方解石5-10份、氧化锂3-5份和氧化镁1-3份。
根据上述技术方案,氧化铅11份、二氧化硅17份、三氧化二硼3份、三氧化二铝4份、氧化钙3份、氧化锌5份、氧化钠5份、氧化钾7份,氧化镍2份、龙岩高岭土6份,方解石7份、氧化锂4份和氧化镁2份。
一种中温环保日用陶瓷制备方法,包括如下步骤:
S1、选料:通过水碓舂将原料打成粉状,淘洗,除去杂质,沉淀后制成砖状的泥块;
S2、练泥:用双手搓揉,或用脚踩踏,把泥团中的空气挤压出来,并使泥中的水分均匀;
S3、拉坯:将泥团摔掷在辘轳车的转盘中心,随手法的屈伸收放拉制出坯体的大致模样;
S4、印坯:印模的外形是按坯体内形弧线旋削而成的,将晾至半干的坯覆在陶瓷模种上,均匀按拍坯体外壁,然后脱模;
S5、利坯:将坯覆放于辘轳车的利桶上,转动车盘,用刀旋削,使坯体厚度适当,表里光洁;
S7、晒坯:将加工成型后的坯摆放在木架上晾晒;
S8、刻花:用竹、骨或铁制的刀具在已干的坯体上刻画出花纹;
S9、施釉:普通圆器采用醮釉或荡釉,琢器或大型圆器用吹釉;
S10、烧窑:首先把陶瓷制品装入匣钵,匣是陶瓷制品焙烧的容器,以耐火材料制成,作用是防止瓷坯与窑火直接接触,避免污染,烧窑时间过程约一昼夜,温度在1180℃~1210℃,先砌窑门,点火烧窑,燃料是松柴,把椿工技术指导,测看火候,掌握窑温变化,决定停火时间。
根据上述技术方案,步骤1中所述筛网细度为300目。
根据上述技术方案,步骤7中所述晒坯时间为8-13天。
根据上述技术方案,步骤10中所述烧窑中砂封槽要定期加砂,砂粒粗细严格按照操作规程中的要求粘度。
根据上述技术方案,步骤10中所述烧窑后停窑检修时的维护保养包括如下步骤:
(1)、熄火之前进车方法:可用空匣钵堆码10车左右进窑,然后推进空窑车;
(2)、逐步地降低预热带的总抽力;
(3)、空车推至高温点后,由烧成带前端向后逐步熄火,待制品车离开烧成带后最后一对燃烧室或喷嘴熄火;
(4)、按正常生产时的进车速度,继续进空车,适当调节冷却带冷热风量,使已烧成的制品按一定的降温速度冷却后出窑;
(5)、随着温度的下降,适时调节窑顶拉杆的松紧;
(6)、当空车挤满窑道内部可停止进车,关闭冷却带的冷热风机,烟道闸板全部开启,打开窑门,关闭所有风机闸板,开启所有事故处理孔,收妥仪器仪表、热电偶送检验。
根据上述技术方案,包括包装,所述包装包括如下步骤:取样检测、合格包装、计量称重、入库。
根据上述技术方案,所述取样检测通过LED灯对其表面纹路与瓷口进行检测,并记录在数据库中。
根据上述技术方案,所述入库是将包装完成的成品进行入库保存,入库时还应有检验员进行二次检验。
与现有技术相比,本发明的有益效果:本发明在生产过程中首先不会产生有害气体,不会造成空气污染与人体的副作用,烧制过程中,通过高温让方解石和龙岩高岭土与氧化锂充分反应,让陶瓷可以更加坚固,而通过氧化镍可以让陶瓷本身可以更加稳定,热敏性更高,防止了陶瓷破损,氧化铅是制作新型陶瓷中主要用作合成钛酸铅的主要原料,也可以让陶瓷上色,提升陶瓷的美感,而在制备过程中,通过在1180℃~1210℃的高温中,可以保证其自身的氧化铅可以自然反应,将铅含量降低到0.005mg/L,在烧制过程中,氧化镁可以保证釉料在瓷器表面包覆均匀,氧化锂是典型的低膨胀陶瓷,可提高陶瓷自身的抗震能力。
附图说明
附图用来提供对本发明的进一步理解,并且构成说明书的一部分,与本发明的实施例一起用于解释本发明,并不构成对本发明的限制。
在附图中:
图1是本发明的陶瓷制备方法流程图;
图2是本发明的包装步骤示意图。
具体实施方式
以下结合附图对本发明的优选实施例进行说明,应当理解,此处所描述的优选实施例仅用于说明和解释本发明,并不用于限定本发明。
实施例1:如图1-2所示,一种中温环保日用陶瓷,所述陶瓷由以下重量份数计原料:氧化铅11份、二氧化硅17份、三氧化二硼3份、三氧化二铝4份、氧化钙3份、氧化锌5份、氧化钠5份、氧化钾7份,氧化镍2份、龙岩高岭土6份,方解石7份、氧化锂4份和氧化镁2份。
一种中温环保日用陶瓷制备方法,包括如下步骤:
S1、选料:通过水碓舂将原料打成粉状,淘洗,除去杂质,沉淀后制成砖状的泥块;
S2、练泥:用双手搓揉,或用脚踩踏,把泥团中的空气挤压出来,并使泥中的水分均匀;
S3、拉坯:将泥团摔掷在辘轳车的转盘中心,随手法的屈伸收放拉制出坯体的大致模样;
S4、印坯:印模的外形是按坯体内形弧线旋削而成的,将晾至半干的坯覆在陶瓷模种上,均匀按拍坯体外壁,然后脱模;
S5、利坯:将坯覆放于辘轳车的利桶上,转动车盘,用刀旋削,使坯体厚度适当,表里光洁;
S7、晒坯:将加工成型后的坯摆放在木架上晾晒;
S8、刻花:用竹、骨或铁制的刀具在已干的坯体上刻画出花纹;
S9、施釉:普通圆器采用醮釉或荡釉,琢器或大型圆器用吹釉;
S10、烧窑:首先把陶瓷制品装入匣钵,匣是陶瓷制品焙烧的容器,以耐火材料制成,作用是防止瓷坯与窑火直接接触,避免污染,烧窑时间过程约一昼夜,温度在1180℃~1210℃,先砌窑门,点火烧窑,燃料是松柴,把椿工技术指导,测看火候,掌握窑温变化,决定停火时间。
根据上述技术方案,步骤1中所述筛网细度为300目。
根据上述技术方案,步骤7中所述晒坯时间为8-13天。
根据上述技术方案,步骤10中所述烧窑中砂封槽要定期加砂,砂粒粗细严格按照操作规程中的要求粘度。
根据上述技术方案,步骤10中所述烧窑后停窑检修时的维护保养包括如下步骤:
(1)、熄火之前进车方法:可用空匣钵堆码10车左右进窑,然后推进空窑车;
(2)、逐步地降低预热带的总抽力;
(3)、空车推至高温点后,由烧成带前端向后逐步熄火,待制品车离开烧成带后最后一对燃烧室或喷嘴熄火;
(4)、按正常生产时的进车速度,继续进空车,适当调节冷却带冷热风量,使已烧成的制品按一定的降温速度冷却后出窑;
(5)、随着温度的下降,适时调节窑顶拉杆的松紧;
(6)、当空车挤满窑道内部可停止进车,关闭冷却带的冷热风机,烟道闸板全部开启,打开窑门,关闭所有风机闸板,开启所有事故处理孔,收妥仪器仪表、热电偶送检验。
根据上述技术方案,包括包装,所述包装包括如下步骤:取样检测、合格包装、计量称重、入库。
根据上述技术方案,所述取样检测通过LED灯对其表面纹路与瓷口进行检测,并记录在数据库中。
根据上述技术方案,所述入库是将包装完成的成品进行入库保存,入库时还应有检验员进行二次检验。
实施例2:如图1-2所示,一种中温环保日用陶瓷,所述陶瓷由以下重量份数计原料:氧化铅10份、二氧化硅20份、三氧化二硼5份、三氧化二铝3份、氧化钙2份、氧化锌8份、氧化钠6份、氧化钾4份,氧化镍3份、龙岩高岭土4份,方解石10份、氧化锂5份和氧化镁1份。
一种中温环保日用陶瓷制备方法,包括如下步骤:
S1、选料:通过水碓舂将原料打成粉状,淘洗,除去杂质,沉淀后制成砖状的泥块;
S2、练泥:用双手搓揉,或用脚踩踏,把泥团中的空气挤压出来,并使泥中的水分均匀;
S3、拉坯:将泥团摔掷在辘轳车的转盘中心,随手法的屈伸收放拉制出坯体的大致模样;
S4、印坯:印模的外形是按坯体内形弧线旋削而成的,将晾至半干的坯覆在陶瓷模种上,均匀按拍坯体外壁,然后脱模;
S5、利坯:将坯覆放于辘轳车的利桶上,转动车盘,用刀旋削,使坯体厚度适当,表里光洁;
S7、晒坯:将加工成型后的坯摆放在木架上晾晒;
S8、刻花:用竹、骨或铁制的刀具在已干的坯体上刻画出花纹;
S9、施釉:普通圆器采用醮釉或荡釉,琢器或大型圆器用吹釉;
S10、烧窑:首先把陶瓷制品装入匣钵,匣是陶瓷制品焙烧的容器,以耐火材料制成,作用是防止瓷坯与窑火直接接触,避免污染,烧窑时间过程约一昼夜,温度在1180℃~1210℃,先砌窑门,点火烧窑,燃料是松柴,把椿工技术指导,测看火候,掌握窑温变化,决定停火时间。
根据上述技术方案,步骤1中所述筛网细度为300目。
根据上述技术方案,步骤7中所述晒坯时间为8-13天。
根据上述技术方案,步骤10中所述烧窑中砂封槽要定期加砂,砂粒粗细严格按照操作规程中的要求粘度。
根据上述技术方案,步骤10中所述烧窑后停窑检修时的维护保养包括如下步骤:
(1)、熄火之前进车方法:可用空匣钵堆码10车左右进窑,然后推进空窑车;
(2)、逐步地降低预热带的总抽力;
(3)、空车推至高温点后,由烧成带前端向后逐步熄火,待制品车离开烧成带后最后一对燃烧室或喷嘴熄火;
(4)、按正常生产时的进车速度,继续进空车,适当调节冷却带冷热风量,使已烧成的制品按一定的降温速度冷却后出窑;
(5)、随着温度的下降,适时调节窑顶拉杆的松紧;
(6)、当空车挤满窑道内部可停止进车,关闭冷却带的冷热风机,烟道闸板全部开启,打开窑门,关闭所有风机闸板,开启所有事故处理孔,收妥仪器仪表、热电偶送检验。
根据上述技术方案,包括包装,所述包装包括如下步骤:取样检测、合格包装、计量称重、入库。
根据上述技术方案,所述取样检测通过LED灯对其表面纹路与瓷口进行检测,并记录在数据库中。
根据上述技术方案,所述入库是将包装完成的成品进行入库保存,入库时还应有检验员进行二次检验。
实施例3:如图1-2所示,一种中温环保日用陶瓷,所述陶瓷由以下重量份数计原料:氧化铅15份、二氧化硅15份、三氧化二硼2份、三氧化二铝5份、氧化钙5份、氧化锌4份、氧化钠3份、氧化钾9份,氧化镍1份、龙岩高岭土7份,方解石5份、氧化锂3份和氧化镁3份。
一种中温环保日用陶瓷制备方法,包括如下步骤:
S1、选料:通过水碓舂将原料打成粉状,淘洗,除去杂质,沉淀后制成砖状的泥块;
S2、练泥:用双手搓揉,或用脚踩踏,把泥团中的空气挤压出来,并使泥中的水分均匀;
S3、拉坯:将泥团摔掷在辘轳车的转盘中心,随手法的屈伸收放拉制出坯体的大致模样;
S4、印坯:印模的外形是按坯体内形弧线旋削而成的,将晾至半干的坯覆在陶瓷模种上,均匀按拍坯体外壁,然后脱模;
S5、利坯:将坯覆放于辘轳车的利桶上,转动车盘,用刀旋削,使坯体厚度适当,表里光洁;
S7、晒坯:将加工成型后的坯摆放在木架上晾晒;
S8、刻花:用竹、骨或铁制的刀具在已干的坯体上刻画出花纹;
S9、施釉:普通圆器采用醮釉或荡釉,琢器或大型圆器用吹釉;
S10、烧窑:首先把陶瓷制品装入匣钵,匣是陶瓷制品焙烧的容器,以耐火材料制成,作用是防止瓷坯与窑火直接接触,避免污染,烧窑时间过程约一昼夜,温度在1180℃~1210℃,先砌窑门,点火烧窑,燃料是松柴,把椿工技术指导,测看火候,掌握窑温变化,决定停火时间。
根据上述技术方案,步骤1中所述筛网细度为300目。
根据上述技术方案,步骤7中所述晒坯时间为8-13天。
根据上述技术方案,步骤10中所述烧窑中砂封槽要定期加砂,砂粒粗细严格按照操作规程中的要求粘度。
根据上述技术方案,步骤10中所述烧窑后停窑检修时的维护保养包括如下步骤:
(1)、熄火之前进车方法:可用空匣钵堆码10车左右进窑,然后推进空窑车;
(2)、逐步地降低预热带的总抽力;
(3)、空车推至高温点后,由烧成带前端向后逐步熄火,待制品车离开烧成带后最后一对燃烧室或喷嘴熄火;
(4)、按正常生产时的进车速度,继续进空车,适当调节冷却带冷热风量,使已烧成的制品按一定的降温速度冷却后出窑;
(5)、随着温度的下降,适时调节窑顶拉杆的松紧;
(6)、当空车挤满窑道内部可停止进车,关闭冷却带的冷热风机,烟道闸板全部开启,打开窑门,关闭所有风机闸板,开启所有事故处理孔,收妥仪器仪表、热电偶送检验。
根据上述技术方案,包括包装,所述包装包括如下步骤:取样检测、合格包装、计量称重、入库。
根据上述技术方案,所述取样检测通过LED灯对其表面纹路与瓷口进行检测,并记录在数据库中。
根据上述技术方案,所述入库是将包装完成的成品进行入库保存,入库时还应有检验员进行二次检验。
本发明按照实施例1-3制得的中温环保日用陶瓷进行检测,结果如表1,
表1检测结果
检测结果可见中温环保日用陶瓷耐磨性能高,铅含量低,对人体无毒副作用,光泽度强,适用于日用级别。
与现有技术相比,本发明的有益效果:本发明在生产过程中首先不会产生有害气体,不会造成空气污染与人体的副作用,烧制过程中,通过高温让方解石和龙岩高岭土与氧化锂充分反应,让陶瓷可以更加坚固,而通过氧化镍可以让陶瓷本身可以更加稳定,热敏性更高,防止了陶瓷破损,氧化铅是制作新型陶瓷中主要用作合成钛酸铅的主要原料,也可以让陶瓷上色,提升陶瓷的美感,而在制备过程中,通过在1180℃~1210℃的高温中,可以保证其自身的氧化铅可以自然反应,将铅含量降低到0.005mg/L,在烧制过程中,氧化镁可以保证釉料在瓷器表面包覆均匀,氧化锂是典型的低膨胀陶瓷,可提高陶瓷自身的抗震能力。
最后应说明的是:以上所述仅为本发明的优选实例而已,并不用于限制本发明,尽管参照前述实施例对本发明进行了详细的说明,对于本领域的技术人员来说,其依然可以对前述各实施例所记载的技术方案进行修改,或者对其中部分技术特征进行等同替换。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 (10)
1.一种中温环保日用陶瓷,其特征在于:所述陶瓷由以下重量份原料制成:氧化铅10-15份、二氧化硅15-20份、三氧化二硼2-5份、三氧化二铝3-5份、氧化钙2-5份、氧化锌4-8份、氧化钠3-6份、氧化钾4-9份,氧化镍1-3份、龙岩高岭土4-7份,方解石5-10份、氧化锂3-5份和氧化镁1-3份。
2.根据权利要求1所述的一种中温环保日用陶瓷,其特征在于,氧化铅11份、二氧化硅17份、三氧化二硼3份、三氧化二铝4份、氧化钙3份、氧化锌5份、氧化钠5份、氧化钾7份,氧化镍2份、龙岩高岭土6份,方解石7份、氧化锂4份和氧化镁2份。
3.一种中温环保日用陶瓷制备方法,其特征在于,包括如下步骤:
S1、选料:通过水碓舂将原料打成粉状,淘洗,除去杂质,沉淀后制成砖状的泥块;
S2、练泥:用双手搓揉,或用脚踩踏,把泥团中的空气挤压出来,并使泥中的水分均匀;
S3、拉坯:将泥团摔掷在辘轳车的转盘中心,随手法的屈伸收放拉制出坯体的大致模样;
S4、印坯:印模的外形是按坯体内形弧线旋削而成的,将晾至半干的坯覆在陶瓷模种上,均匀按拍坯体外壁,然后脱模;
S5、利坯:将坯覆放于辘轳车的利桶上,转动车盘,用刀旋削,使坯体厚度适当,表里光洁;
S7、晒坯:将加工成型后的坯摆放在木架上晾晒;
S8、刻花:用竹、骨或铁制的刀具在已干的坯体上刻画出花纹;
S9、施釉:普通圆器采用醮釉或荡釉,琢器或大型圆器用吹釉;
S10、烧窑:首先把陶瓷制品装入匣钵,匣是陶瓷制品焙烧的容器,以耐火材料制成,作用是防止瓷坯与窑火直接接触,避免污染,烧窑时间过程约一昼夜,温度在1180℃~1210℃,先砌窑门,点火烧窑,燃料是松柴,把椿工技术指导,测看火候,掌握窑温变化,决定停火时间。
4.根据权利要求3所述的一种中温环保日用陶瓷制备方法,其特征在于,步骤1中所述筛网细度为300目。
5.根据权利要求3所述的一种中温环保日用陶瓷制备方法,其特征在于,步骤7中所述晒坯时间为8-13天。
6.根据权利要求3所述的一种中温环保日用陶瓷制备方法,其特征在于,步骤10中所述烧窑中砂封槽要定期加砂,砂粒粗细严格按照操作规程中的要求粘度。
7.根据权利要求3所述的一种中温环保日用陶瓷制备方法,其特征在于,步骤10中所述烧窑后停窑检修时的维护保养包括如下步骤:
(1)、熄火之前进车方法:可用空匣钵堆码10车左右进窑,然后推进空窑车;
(2)、逐步地降低预热带的总抽力;
(3)、空车推至高温点后,由烧成带前端向后逐步熄火,待制品车离开烧成带后最后一对燃烧室或喷嘴熄火;
(4)、按正常生产时的进车速度,继续进空车,适当调节冷却带冷热风量,使已烧成的制品按一定的降温速度冷却后出窑;
(5)、随着温度的下降,适时调节窑顶拉杆的松紧;
(6)、当空车挤满窑道内部可停止进车,关闭冷却带的冷热风机,烟道闸板全部开启,打开窑门,关闭所有风机闸板,开启所有事故处理孔,收妥仪器仪表、热电偶送检验。
8.根据权利要求3所述的一种中温环保日用陶瓷制备方法,其特征在于,包括包装,所述包装包括如下步骤:取样检测、合格包装、计量称重、入库。
9.根据权利要求3所述的一种中温环保日用陶瓷制备方法,其特征在于,所述取样检测通过LED灯对其表面纹路与瓷口进行检测,并记录在数据库中。
10.根据权利要求3所述的一种中温环保日用陶瓷制备方法,其特征在于,所述入库是将包装完成的成品进行入库保存,入库时还应有检验员进行二次检验。
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110735139A (zh) * | 2019-11-05 | 2020-01-31 | 深圳宝福珠宝有限公司 | 一种应用于金属表面的复合珐琅加工方法 |
CN112624731A (zh) * | 2020-12-21 | 2021-04-09 | 隆昌祥鑫陶瓷有限公司 | 一种环保粗陶瓷保存罐的生产及其制备方法 |
CN112876218A (zh) * | 2021-02-11 | 2021-06-01 | 深圳市悠悠家庭用品有限公司 | 一种轻质多空日用陶瓷制品的制备方法 |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1686952A (zh) * | 2005-05-06 | 2005-10-26 | 湖南省天博瓷业有限公司 | 中温陶瓷大红釉的配制方法 |
CN103641459A (zh) * | 2013-08-12 | 2014-03-19 | 蔡瑞歆 | 一种中温烧成高温性能的日用陶瓷及其制备方法 |
CN105967643A (zh) * | 2016-05-05 | 2016-09-28 | 德化县如瓷生活文化有限公司 | 中温高档日用餐具瓷及其制备方法 |
CN107056058A (zh) * | 2017-04-27 | 2017-08-18 | 景德镇陶瓷大学 | 一种中温日用陶瓷装饰用花釉的应用方法 |
-
2019
- 2019-06-20 CN CN201910539194.5A patent/CN110092648A/zh active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1686952A (zh) * | 2005-05-06 | 2005-10-26 | 湖南省天博瓷业有限公司 | 中温陶瓷大红釉的配制方法 |
CN103641459A (zh) * | 2013-08-12 | 2014-03-19 | 蔡瑞歆 | 一种中温烧成高温性能的日用陶瓷及其制备方法 |
CN105967643A (zh) * | 2016-05-05 | 2016-09-28 | 德化县如瓷生活文化有限公司 | 中温高档日用餐具瓷及其制备方法 |
CN107056058A (zh) * | 2017-04-27 | 2017-08-18 | 景德镇陶瓷大学 | 一种中温日用陶瓷装饰用花釉的应用方法 |
Non-Patent Citations (4)
Title |
---|
吴小平: "《长沙窑传统工艺与技法》", 30 June 2017, 广东经济出版社 * |
张凤岐 等: "《结晶釉工艺》", 31 August 1981, 上海科学技术出版社 * |
无: "陶瓷制作工艺流程简介", 《HTTPS://WWW.SOHU.COM/A/158113124_99937281》 * |
无: "隧道窑常见的一些问题及处理方法", 《HTTP://WWW.ZNHCL.COM/NEWS/SHOW-7569.HTML》 * |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110735139A (zh) * | 2019-11-05 | 2020-01-31 | 深圳宝福珠宝有限公司 | 一种应用于金属表面的复合珐琅加工方法 |
CN112624731A (zh) * | 2020-12-21 | 2021-04-09 | 隆昌祥鑫陶瓷有限公司 | 一种环保粗陶瓷保存罐的生产及其制备方法 |
CN112876218A (zh) * | 2021-02-11 | 2021-06-01 | 深圳市悠悠家庭用品有限公司 | 一种轻质多空日用陶瓷制品的制备方法 |
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