CN114133220A - 手工陶瓷花艺与日用器皿的无缝粘接工艺品及其制备方法 - Google Patents
手工陶瓷花艺与日用器皿的无缝粘接工艺品及其制备方法 Download PDFInfo
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Abstract
本发明涉及陶瓷制品及其工艺领域,具体涉及一种手工陶瓷花艺与日用器皿的无缝粘接工艺品及其制备方法,通过在丝网上平铺造型在转移至坯体上,避免在薄坯体上造型导致坯体损坏,抽丝可以在花艺和坯体之间形成孔隙,提高透光率,石蜡密封和泥浆复浸,可以在保证花艺边缘清晰的前提下,提高手工陶瓷花艺和坯体的粘结度;活性炭对坯体中的氧化铝进行还原氮化反应,生成氮氧化铝,高透光性的坯体将内部的光投射至手工陶瓷花艺上,使得花艺根据厚度不同呈现不同的亮度,具有良好的层次感和观赏性;花艺泥料中的玻璃颗粒在烧制的过程中熔化,并与花艺原料融为一体,颗粒状分布的玻璃颗粒有助于提高陶瓷花艺对光线的折射率。
Description
技术领域
本发明涉及陶瓷制品及其工艺领域,具体的涉及手工陶瓷花艺与日用器皿的无缝粘接工艺品及其制备方法。
背景技术
传统的陶瓷制备工艺中,在陶瓷表面呈现花纹图案通常是采用陶瓷印花工艺实现,主要是包括如下方式:1、用刻有装饰纹样的印模,在尚未干透的胎上印出花纹。2、用刻有纹样的模子制坯,使胎上留下花纹。3、为丝网印花,分釉上丝网印花和釉下丝网印花两种,是将彩料通过花样丝网套印在制品上。采用印模成型的方式制备花纹,虽然能够形成立体效果,但是花纹和陶瓷为同样的坯料,不易体现出花纹本身的质感;采用丝网印花则缺乏立体感和层次感。
此外,手工陶瓷花艺是以自然中花草和动物等为主要表现对象,利用陶瓷泥料通过手工捏塑和高温烧成,既能够提现陶瓷的原料质感,又能通过造型提现大自然的美感,如果能将手工陶瓷花艺与日用器皿进行结合,则能够得到既有立体效果又能提现花艺本身质感的工艺品,但是将手工陶瓷花艺与日用器皿结合过程中会遇到一些问题:在薄坯体上造型陶瓷花艺操作难度大,坯体容易破损,且加工速度较慢,在坯体上直接制作,泥料太软容易拉耸甚至断裂,太硬则不容易造型,且黏上去容易掉落;花艺粘结处由于泥料厚度较厚,透光性不好,花艺的光泽度不高;花艺和坯体边缘由于上釉而不清晰,有鉴于此,本案由此产生。
发明内容
本发明的一个目的是通过手工陶瓷花艺与日用器皿的无缝粘接工艺品及其制备方法解决至少上述问题。
为解决上述技术问题,本发明采用的技术方案如下:手工陶瓷花艺与日用器皿的无缝粘接工艺品,其特征在于:包括日用器皿和陶瓷花艺,所述陶瓷花艺覆盖于日用器皿表面,所述日用器皿的原料为透光泥料,所述陶瓷花艺的原料为析釉泥料,所述日用器皿和陶瓷花艺表面覆盖有透明面釉。
优选的,所述透光泥料的原料以重量份计,包括如下组分:钾长石15-20 份、碳酸钙10-20份、钠长石5-8份、高岭土10-12份、氧化铝30-40份、碳酸钡3-5份、熟滑石5-10份、锂辉石3-5份,所述日用器皿坯体厚度为1.5-2mm。
优选的,所所述析釉泥料的原料以重量份计,包括如下组分:二氧化硅60-70 份、锂辉石25-30份、高岭土10-12份、滑石5-10份、氧化钴5-10份、金红石12-13份。
优选的,所所述析釉泥料的原料中还包括如下重量份的组分:玻璃颗粒 10-12份。
优选的,所所述玻璃颗粒为球形,直径为0.4-0.5mm,所述玻璃颗粒的原料以重量份计,包括如下组分:二氧化硅20-30份、磷酸锰10-12份、氧化铝5-10 份、硼砂5-8份。
优选的,所所述透明面釉的原料以重量份计,包括如下组分:云母10-12 份、滑石粉5-8份、石英粉16-18份、玻璃粉6-8份。
根据上述的手工陶瓷花艺与日用器皿的无缝粘接工艺品的制备方法,其特征在于,包括如下步骤:
步骤a、制备日用器皿坯体,素烧成型;
步骤b、采用高温火焰枪对需要粘附手工陶瓷花艺的部位灼烧;
步骤c、在操作台上平铺丝网,在丝网上用析釉泥料造型手工陶瓷花艺;.
步骤d、在待粘附区域刷泥浆;
步骤e、将丝网连同手工陶瓷花艺覆盖至坯体上刷浆区域,自然晾干1小时;
步骤f、对丝网进行抽丝;
步骤g、在手工陶瓷花艺表面滴石蜡密封,用美工刀切除手工陶瓷花艺边缘处多余的石蜡;
步骤h、将手工陶瓷花艺与日用器皿入泥浆浸泡,取出后烘干,清除手工陶瓷花艺表面附着的泥料,并对手工陶瓷花艺边缘进行修补;
步骤g、施加面釉,烧制成型。
优选的,所所述步骤a中,在所述透光泥料的原料中,按照重量份添加如下组分:活性碳粉15-20份,并搅拌均匀,成型坯体后烘干,进入窑炉内在氮气气氛下烧制1.5-2小时、温度1250摄氏度,然后抽走氮气并通入空气继续烧制0.5-1小时,烧制温度700-800摄氏度,自然降温。
优选的,所所述步骤b中,灼烧时间为30-50秒,所述步骤h中,烘干温度为100-120摄氏度,烘干时间为2-3小时。
优选的,所所述步骤g中,烧成温度为1250-1280摄氏度。
由上述描述可知,本发明提供的手工陶瓷花艺与日用器皿的无缝粘接工艺品及其制备方法具有如下有益效果:通过在丝网上平铺造型在转移至坯体上,避免在薄坯体上造型导致坯体损坏,抽丝可以在花艺和坯体之间形成孔隙,提高透光率,石蜡密封和泥浆复浸,可以在保证花艺边缘清晰的前提下,提高手工陶瓷花艺和坯体的粘结度;活性炭对坯体中的氧化铝进行还原氮化反应,生成氮氧化铝,高透光性的坯体将内部的光投射至手工陶瓷花艺上,使得花艺根据厚度不同呈现不同的亮度,具有良好的层次感和观赏性;花艺泥料中的玻璃颗粒在烧制的过程中熔化,并与花艺原料融为一体,颗粒状分布的玻璃颗粒有助于提高陶瓷花艺对光线的折射率,进而提高花艺的透光性,陶瓷花艺整体呈现以青色为主体,点缀红色光点的效果。
具体实施方式
以下通过具体实施方式对本发明作进一步的描述。
为使本发明实现的技术手段、创作特征、达成目的与功效易于明白了解,下面结合具体实施方式,进一步阐述本发明。
本发明手工陶瓷花艺与日用器皿的无缝粘接工艺品,包括日用器皿和陶瓷花艺,陶瓷花艺覆盖于日用器皿表面,日用器皿的原料为透光泥料,陶瓷花艺的原料为析釉泥料,日用器皿和陶瓷花艺表面覆盖有透明面釉。
透光泥料的原料以重量份计,包括如下组分:钾长石15-20份、碳酸钙10-20 份、钠长石5-8份、高岭土10-12份、氧化铝30-40份、碳酸钡3-5份、熟滑石5-10份、锂辉石3-5份,日用器皿坯体厚度为1.5-2mm。日用器皿坯体厚度为1.5-2mm。采用透光泥料制成的日用器皿具有良好的透光性,整体呈白色。
析釉泥料的原料以重量份计,包括如下组分:二氧化硅60-70份、锂辉石 25-30份、高岭土10-12份、滑石5-10份、氧化钴5-10份、金红石12-13份。析釉泥料烧制后使得花艺层青色,析釉泥料在烧制过程中,陶瓷花艺析出釉料,无需对花艺上釉,使得花艺与陶瓷坯体衔接处清晰自然,避免对花艺单独上釉时,釉料上到坯体上,导致边缘不清晰。
析釉泥料的原料中还包括如下重量份的组分:玻璃颗粒10-12份。
玻璃颗粒为球形,直径为0.4-0.5mm,玻璃颗粒的原料以重量份计,包括如下组分:二氧化硅20-30份、磷酸锰10-12份、氧化铝5-10份、硼砂5-8份。玻璃颗粒烧制后呈金红色,花艺泥料中的玻璃颗粒在烧制的过程中熔化,并与花艺原料融为一体,颗粒状分布的玻璃颗粒有助于提高陶瓷花艺对光线的折射率,进而提高花艺的透光性,陶瓷花艺整体呈现以青色为主体,点缀红色光点的效果。
透明面釉的原料以重量份计,包括如下组分:云母10-12份、滑石粉5-8 份、石英粉16-18份、玻璃粉6-8份。
手工陶瓷花艺与日用器皿的无缝粘接工艺品的制备方法,其特征在于,包括如下步骤:
步骤a、制备日用器皿坯体,素烧成型;
步骤b、采用高温火焰枪对需要粘附手工陶瓷花艺的部位灼烧局部碳酸钙分解形成孔隙,使得后续析釉泥料析出的釉料与渗入孔隙,增加手工陶瓷花艺与日用器皿的粘结度;
步骤c、在操作台上平铺丝网,在丝网上用析釉泥料造型手工陶瓷花艺;
步骤d、在待粘附区域刷泥浆;
步骤e、将丝网连同手工陶瓷花艺覆盖至坯体上刷浆区域,自然晾干1小时;
步骤f、对丝网进行抽丝;
步骤g、在手工陶瓷花艺表面滴石蜡密封,用美工刀切除手工陶瓷花艺边缘处多余的石蜡;
步骤h、将手工陶瓷花艺与日用器皿入泥浆浸泡,取出后烘干,烘干过程中由于石蜡熔化,手工陶瓷花艺表面附着的泥料会自然开裂脱落,进一步用刷子清除手工陶瓷花艺表面附着的泥料,并对手工陶瓷花艺边缘进行修补;
步骤g、施加面釉,烧制成型。
通过在丝网上平铺造型在转移至坯体上,避免在薄坯体上造型导致坯体损坏,抽丝可以在花艺和坯体之间形成孔隙,提高透光率,石蜡密封和泥浆复浸,可以在保证花艺边缘清晰的前提下,提高手工陶瓷花艺和坯体的粘结度。
所述步骤a中,在所述透光泥料的原料中,按照重量份添加如下组分:活性碳粉15-20份,并搅拌均匀,成型坯体后50-60摄氏度下烘干2-3小时,进入窑炉内在氮气气氛下烧制1.5-2小时、温度1250摄氏度,活性炭对坯体中的部分AL2O3进行还原氮化反应生成ALN,余下的AL2O3与ALN进行固溶反应生成氮氧化铝,ALON使得坯体具有良好透光性和耐高温性,然后抽走氮气并通入空气继续烧制0.5-1小时,烧制温度700-800摄氏度,自然降温,重而将坯体中剩余的活性炭燃烧。高透光性的坯体将内部的光投射至手工陶瓷花艺上,使得花艺根据厚度不同呈现不同的亮度,具有良好的层次感和观赏性。
步骤b中,灼烧时间为30-50秒步骤h中,烘干温度为100-120摄氏度,烘干时间为2-3小时。
步骤g中,烧成温度为1250-1280摄氏度。
在本发明的描述中,需要理解的是,术语“上”、“下”、“前”、“后”、“左”、“右”、“顶”、“底”、“内”、“外”等指示的方位或位置关系为基于所示的方位或位置关系,仅是为了便于描述本发明和简化描述,而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作,因此不能理解为对本发明的限制,本说明书中未作详细描述的内容属于本领域专业技术人员公知的现有技术。
在本发明的描述中,需要说明的是,除非另有明确的规定和限定,术语“安装”、“相连”、“设置”应做广义理解,例如,可以是固定相连、设置,也可以是可拆卸连接、设置,或一体地连接、设置;本发明中提供的用电器的型号仅供参考。对于本领域的普通技术人员而言,可以根据实际使用情况更换功能相同的不同型号用电器,对于本领域的普通技术人员而言,可以具体情况理解上述术语在本发明中的具体含义。
上述仅为本发明的若干具体实施方式,但本发明的设计构思并不局限于此,凡利用此构思对本发明进行非实质性的改动,均应属于侵犯本发明保护范围的行为。
Claims (10)
1.手工陶瓷花艺与日用器皿的无缝粘接工艺品,其特征在于:包括日用器皿和陶瓷花艺,所述陶瓷花艺覆盖于日用器皿表面,所述日用器皿的原料为透光泥料,所述陶瓷花艺的原料为析釉泥料,所述日用器皿和陶瓷花艺表面覆盖有透明面釉。
2.根据权利要求1所述的手工陶瓷花艺与日用器皿的无缝粘接工艺品,其特征在于:所述透光泥料的原料以重量份计,包括如下组分:钾长石15-20份、碳酸钙10-20份、钠长石5-8份、高岭土10-12份、氧化铝30-40份、碳酸钡3-5份、熟滑石5-10份、锂辉石3-5份,所述日用器皿坯体厚度为1.5-2mm。
3.根据权利要求1所述的手工陶瓷花艺与日用器皿的无缝粘接工艺品,其特征在于:所述析釉泥料的原料以重量份计,包括如下组分:二氧化硅60-70份、锂辉石25-30份、高岭土10-12份、滑石5-10份、氧化钴5-10份、金红石12-13份。
4.根据权利要求1所述的手工陶瓷花艺与日用器皿的无缝粘接工艺品,其特征在于:所述析釉泥料的原料中还包括如下重量份的组分:玻璃颗粒10-12份。
5.根据权利要求1所述的手工陶瓷花艺与日用器皿的无缝粘接工艺品,其特征在于:所述玻璃颗粒为球形,直径为0.4-0.5mm,所述玻璃颗粒的原料以重量份计,包括如下组分:二氧化硅20-30份、磷酸锰10-12份、氧化铝5-10份、硼砂5-8份。
6.根据权利要求1所述的手工陶瓷花艺与日用器皿的无缝粘接工艺品,其特征在于:所述透明面釉的原料以重量份计,包括如下组分:云母10-12份、滑石粉5-8份、石英粉16-18份、玻璃粉6-8份。
7.根据权利要求1-6所述的手工陶瓷花艺与日用器皿的无缝粘接工艺品的制备方法,其特征在于,包括如下步骤:
步骤a、制备日用器皿坯体,素烧成型;
步骤b、采用高温火焰枪对需要粘附手工陶瓷花艺的部位灼烧;
步骤c、在操作台上平铺丝网,在丝网上用析釉泥料造型手工陶瓷花艺;.
步骤d、在待粘附区域刷泥浆;
步骤e、将丝网连同手工陶瓷花艺覆盖至坯体上刷浆区域,自然晾干1小时;
步骤f、对丝网进行抽丝;
步骤g、在手工陶瓷花艺表面滴石蜡密封,用美工刀切除手工陶瓷花艺边缘处多余的石蜡;
步骤h、将手工陶瓷花艺与日用器皿入泥浆浸泡,取出后烘干,清除手工陶瓷花艺表面附着的泥料,并对手工陶瓷花艺边缘进行修补;
步骤g、施加面釉,烧制成型。
8.根据权利要求7述的手工陶瓷花艺与日用器皿的无缝粘接工艺品的制备方法,其特征在于:所述步骤a中,在所述透光泥料的原料中,按照重量份添加如下组分:活性碳粉15-20份,并搅拌均匀,成型坯体后烘干,进入窑炉内在氮气气氛下烧制1.5-2小时、温度1250摄氏度,然后抽走氮气并通入空气继续烧制0.5-1小时,烧制温度700-800摄氏度,自然降温。
9.根据权利要求7述的手工陶瓷花艺与日用器皿的无缝粘接工艺品的制备方法,其特征在于:所述步骤b中,灼烧时间为30-50秒,所述步骤h中,烘干温度为100-120摄氏度,烘干时间为2-3小时。
10.根据权利要求7述的手工陶瓷花艺与日用器皿的无缝粘接工艺品的制备方法,其特征在于:所述步骤g中,烧成温度为1250-1280摄氏度。
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