CN111995356A - 一种陶瓷烧制方法 - Google Patents

一种陶瓷烧制方法 Download PDF

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CN111995356A
CN111995356A CN202010690032.4A CN202010690032A CN111995356A CN 111995356 A CN111995356 A CN 111995356A CN 202010690032 A CN202010690032 A CN 202010690032A CN 111995356 A CN111995356 A CN 111995356A
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Abstract

本发明公开了一种陶瓷烧制方法,包括如下步骤:1)红胶土制备;2)配料,按重量份数选取步骤1制得的红胶土60‑85份,石英5‑10份,长石15‑20份,混合均匀备用;3)浆料制备,将混合好的原料按重量比重每份原料加入0.4‑0.6份水,然后放入球磨机研磨成310‑350目的浆料;4)制坯,并将陶坯自然阴干到含水量6%以下;5)烧制,经过一次烧制定型,二次烧制,即可得到无色无釉的黑陶。本发明属于陶瓷烧制技术领域,具体是指一种充分利用红胶土制备黑陶制品的陶瓷烧制方法。

Description

一种陶瓷烧制方法
技术领域
本发明属于陶瓷烧制技术领域,具体是指一种陶瓷烧制方法。
背景技术
雄安新区地处九河下稍,古黄河、古易水、拒马河、白沟河、大清河从这 里流过。孤庄头村地下两米至20余米的地层中,分布着细腻、纯净的红胶 土,是制作优质陶器的最好资源。黑陶原料利用经过几千年岁月淘洗的红胶泥 作原料,以其深厚的历史底蕴和丰富的人文内涵,构成黑陶文化的渊源。充分 利用雄安本地经过上万年岁月淘洗的红胶泥作原料,在制作成仿古、仿青铜 器、高轧光、镂刻、彩绘等多种系列的黑陶工艺品的同时,亦使雄安新区红胶 土得到资源化利用。
专利号为CN105254281B的专利申请公开了一种陶瓷烧制方法,所述高温 相变储热材料,包括以下步骤:选料,按照重量份数选取软土13~19份,硬 土27~30份,石英6~10份、黄长石15-21份,混合均匀备用;备料,将混合 好的原料按照重量比每10-12份原料加入7-9份水,然后放入球磨机细磨,将 原料研磨成200-300目的浆料;制坯,将所得浆料用浇铸、拉坯或机器压制制 成所要制作的陶器的陶坯,将陶器坯自然阴干到含水量在13%以下;上釉,将 釉浆均匀施在阴干后的陶丕表面。
发明内容
为了解决上述难题,本发明提供了一种充分利用红胶土制备黑陶制品的陶 瓷烧制方法。
为了实现上述功能,本发明采取的技术方案如下:一种陶瓷烧制方法,包 括如下步骤:
1)红胶土制备,选取合适的红胶土,依次经过养土和澄江过滤程序制得 适用于烧制陶瓷的红胶土;
2)配料,按重量份数选取步骤1制得的红胶土60-85份,石英5-10份, 长石15-20份,混合均匀备用;
3)浆料制备,将混合好的原料按重量比重每份原料加入0.4-0.6份水,然 后放入球磨机研磨成310-350目的浆料,备用;
4)制坯,将所得浆料用浇铸、拉坯或机器压制制成所要制作陶器的陶 坯、将陶坯自然阴干到含水量6%以下;
5)烧制,将阴干的陶坯装入窑内,快速升至800-900℃,保持4-6h,之 后降温,待温度降至80-120℃后从窑中取出,之后把陶坯放入加满木炭的密封 的匣钵里入窑,二次烧制到1050℃,保持0.2-1h,之后降温,待温度降至80- 120℃后从窑中取出,即可得到无色无釉的黑陶。
进一步地,所述步骤1中的养土程序为将选取的红胶土放置1-3年,经过 1-3次冬春的冻化过程,使得红胶土熟化。
进一步地,所述步骤1中澄浆过滤程序是将经过养护熟化的红胶土加水和 成粥状稀泥,然后加以搅拌,使其中的杂质和泥沙分离出来,只将过滤后的泥 浆留下沉淀成泥使用,降低有害元素的量。
本发明采取上述结构取得有益效果如下:本发明提供的一种陶瓷烧制方 法,可充分利用雄安新区的红胶土资源,生产出黑陶工艺品,实现红胶土资源 的资源化利用。
具体实施方式
下面将对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描 述的实施例仅是本发明的一部分实施例,而不是全部的实施例。基于本发明中 的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其 它实施例,都属于本发明保护的范围。
实施例1
本发明一种陶瓷烧制方法,包括如下步骤:
1)红胶土制备;
2)配料,按重量份数选取步骤1制得的红胶土75份,石英10份,长石 15份,混合均匀备用;
3)浆料制备,将混合好的原料按重量比重每份原料加入0.4-0.6份水,然 后放入球磨机研磨成320目的浆料,备用;
4)制坯,将所得浆料用浇铸、拉坯或机器压制制成所要制作陶器的陶 坯、将陶坯自然阴干到含水量6%以下;
5)烧制,将阴干的陶坯装入窑内,3h内升至800-900℃,保持6h,之后 降温,待温度降至80-120℃后从窑中取出,之后把陶坯放入加满木炭的密 封的匣钵里入窑,二次烧制到1050℃,保持0.5h,之后降温,待温度降 至80-120℃后从窑中取出,即可得到无色无釉的黑陶。
实施例2
本发明一种陶瓷烧制方法,包括如下步骤:
1)红胶土制备;
2)配料,按重量份数选取步骤1制得的红胶土80份,石英10份,长石 10份,混合均匀备用;
3)浆料制备,将混合好的原料按重量比重每份原料加入0.4-0.6份水,然 后放入球磨机研磨成350目的浆料,备用;
4)制坯,将所得浆料用浇铸、拉坯或机器压制制成所要制作陶器的陶 坯、将陶坯自然阴干到含水量6%以下;
5)烧制,将阴干的陶坯装入窑内,2h内升至800-900℃,保持5h,之后 降温,待温度降至80-120℃后从窑中取出,之后把陶坯放入加满木炭的密 封的匣钵里入窑,二次烧制到1050℃,保持1h,之后降温,待温度降至 80-120℃后从窑中取出,即可得到无色无釉的黑陶。
实施例3
本发明一种陶瓷烧制方法,包括如下步骤:
1)红胶土制备;
2)配料,按重量份数选取步骤1制得的红胶土75份,石英5份,长石20 份,混合均匀备用;
3)浆料制备,将混合好的原料按重量比重每份原料加入0.4-0.6份水,然 后放入球磨机研磨成330目的浆料,备用;
4)制坯,将所得浆料用浇铸、拉坯或机器压制制成所要制作陶器的陶 坯、将陶坯自然阴干到含水量6%以下;
5)烧制,将阴干的陶坯装入窑内,3.5h内升至800-900℃,保持5h,之 后降温,待温度降至80-120℃后从窑中取出,之后把陶坯放入加满木炭的 密封的匣钵里入窑,二次烧制到1050℃,保持0.8h,之后降温,待温度 降至80-120℃后从窑中取出,即可得到无色无釉的黑陶。
以上对本发明及其实施方式进行了描述,这种描述没有限制性。总而言之 如果本领域的普通技术人员受其启示,在不脱离本发明创造宗旨的情况下,不 经创造性的设计出与该技术方案相似的实施例,均应属于本发明的保护范围。

Claims (3)

1.一种陶瓷烧制方法,其特征在于,包括如下步骤:
1)红胶土制备,选取合适的红胶土,依次经过养土和澄江过滤程序制得适用于烧制陶瓷的红胶土;
2)配料,按重量份数选取步骤1制得的红胶土60-85份,石英5-10份,长石15-20份,混合均匀备用;
3)浆料制备,将混合好的原料按重量比重每份原料加入0.4-0.6份水,然后放入球磨机研磨成310-350目的浆料,备用;
4)制坯,将所得浆料用浇铸、拉坯或机器压制制成所要制作陶器的陶坯、将陶坯自然阴干到含水量6%以下;
5)烧制,将阴干的陶坯装入窑内,快速升至800-900℃,保持4-6h,之后降温,待温度降至80-120℃后从窑中取出,之后把陶坯放入加满木炭的密封的匣钵里入窑,二次烧制到1050℃,保持0.2-1h,之后降温,待温度降至80-120℃后从窑中取出,即可得到无色无釉的黑陶。
2.根据权利要求1所述的一种陶瓷烧制方法,其特征在于,所述步骤1中的养土程序为将选取的红胶土放置1-3年,经过1-3次冬春的冻化过程,使得红胶土熟化。
3.根据权利要求1所述的一种陶瓷烧制方法,其特征在于,所述步骤1中澄浆过滤程序是将经过养护熟化的红胶土加水和成粥状稀泥,然后加以搅拌,使其中的杂质和泥沙分离出来,只将去除杂质后的泥浆留下沉淀成泥使用。
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113135734A (zh) * 2021-04-28 2021-07-20 景德镇陶瓷大学 一种彩釉炻质砖及其制备方法
CN116003099A (zh) * 2022-12-08 2023-04-25 华北理工大学 一种电窑焖烧黑陶的烧制方法

Citations (5)

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