CN110372395A - 外墙轻质高强陶瓷保温装饰一体板 - Google Patents
外墙轻质高强陶瓷保温装饰一体板 Download PDFInfo
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Abstract
本发明涉及保温建筑材料的技术领域,且公开了外墙轻质高强陶瓷保温装饰一体板,外墙轻质高强陶瓷保温装饰一体板,先将20~60%工业废渣、10~45%的可塑黏土、15~50%熔剂料、1~5%的发泡剂和1%~5%解胶剂以及余量水入磨,球磨成一定细度的泥浆,烧制为成品,通过在原料中加入了细度为1~100μm的发泡剂,当烧制温度达到1150℃时,发泡剂开始分解反应,放出二氧化碳等气体,因而分解的气体被封在坯胎中,随着温度的升高,发泡剂继续分解,气体膨胀压力升高,坯胎随之膨胀,气体膨胀到一定体积后被封在坯体中而保持平衡,冷却后在坯体中形成无数个独立的小气孔,气孔孔径在0.2~1.0mm之间,陶瓷本身导热系数就小,再加上如此多的独立小孔,从而使保温效果更加完善。
Description
技术领域
本发明涉及保温建筑材料的技术领域,具体为外墙轻质高强陶瓷保温装饰一体板。
背景技术
保温材料一般是指热系数小于或等于0.12的材料。保温材料发展很快,在工业和建筑中采用良好的保温技术与材料,往往可以起到事半功倍的效果,当前的保温材料(墙体用)主要有无机保温材料和有机保温材料两类,从这两类保温材料使用情况分析,它们有以下缺点:有机保温材料不耐高温、耐酸碱能力差、抗氧化能力弱、易老化、化学稳定性不良,因此使用寿命短;无机保温材料吸温性强、易渗水开裂、易变形和损坏、防渗能力差,从而导致现有大多数的保温材料隔热保温效果差。
发明内容
(一)解决的技术问题
针对现有技术的不足,本发明提供了外墙轻质高强陶瓷保温装饰一体板,具备使保温效果更加完善的效果,解决了现有有机保温材料不耐高温、耐酸碱能力差、抗氧化能力弱、易老化、化学稳定性不良,因此使用寿命短;无机保温材料吸温性强、易渗水开裂、易变形和损坏、防渗能力差,从而导致现有大多数的保温材料隔热保温效果差的问题。
(二)技术方案
为实现上述使保温效果更加完善的目的,本发明提供如下技术方案:外墙轻质高强陶瓷保温装饰一体板的配方,所述外墙轻质高强陶瓷保温装饰一体板的配方由以下成分组成:
20~60%工业废渣、10~45%的可塑黏土、15~50%熔剂料、1~5%的发泡剂、1%~5%解胶剂以及余量水。
外墙轻质高强陶瓷保温装饰一体板的制备方法,包括以下步骤:
(a)先将20~60%工业废渣、10~45%的可塑黏土、15~50%熔剂料、1~5%的发泡剂和1%~5%解胶剂以及余量水入磨,球磨成一定细度的泥浆;
(b)然后将泥浆进行喷雾干燥,制成粉料;
(c)将粉料送入压砖机,压制成型(坯体);
(d)将坯体入干燥窑进行干燥;
(e)干燥好的坯体施釉、喷花或者加装饰效果材料;
(f)表面处理完成后入烧成窑,在1150℃--1240℃下保温烧制即成成品;
(g)烧制好的成品按要求磨削或切割,然后打包入库。
优选的,所述a步骤中可塑性黏土为高岭土、膨润土或者球土。
优选的,所述b步骤中泥浆的细度为0.1~0.4%。
优选的,所述d步骤中坯体入干燥窑进行干燥后,干燥好的坯体水份小于0.5%。
优选的,所述e步骤中施釉厚度为0.1~1.0mm。
优选的,所述f步骤中的烧制时间一般控制在40~60分钟。
(三)有益效果
与现有技术相比,本发明提供了外墙轻质高强陶瓷保温装饰一体板,具备以下有益效果:
1、该外墙轻质高强陶瓷保温装饰一体板,通过在原料中加入了细度为1~100μm的发泡剂,发泡剂可以非常均匀的分散于陶瓷基料中形成孔源,随着烧成温度的提高,当烧制温度达到1150℃时,发泡剂开始分解反应,放出二氧化碳等气体,而这个温度下的坯体已经烧结并有大量的高温粘稠液相(玻璃相)形成,因而分解的气体被封在坯胎中,随着温度的升高,发泡剂继续分解,气体膨胀压力升高,气孔增大,坯胎随之膨胀,当烧制温度和时间达到设定值时,气体膨胀到一定体积后被封在坯体中而保持平衡,冷却后在坯体中形成无数个独立的小气孔,气孔孔径在0.2~1.0mm之间,陶瓷本身导热系数就小,再加上如此多的独立小孔,从而使保温效果更加完善。
2、该外墙轻质高强陶瓷保温装饰一体板,通过在烧制前表面进行了施釉、喷墨图案及施以装饰效果材料,通过高温烧制后增强了其表面的耐磨性和装饰效果,其次,由于具有导热系数小、强度高、重量轻、耐酸碱等特点,从而实现了保温与装饰的统一的有机结合。
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,所描述的实施例仅仅是本发明一部分实施例,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他实施例,都属于本发明保护的范围。
实施例一
外墙轻质高强陶瓷保温装饰一体板的制备方法,包括以下步骤:
(a)先将50%工业废渣、35%的可塑黏土以及15%熔剂料,随后额外加入1.7%的发泡剂和0.7%的解胶剂以及余量水入磨,利用下落的研磨体(如钢球、鹅孵石等)的冲击作用以及研磨体与球磨内壁的研磨作用而将加入的物料粉碎并混合,当球磨转动时,由于研磨体与球磨内壁之间的摩擦作用,将研磨体依旋转的方向带上后再落下,这样物料就连续不断地被粉碎,使物料球磨成一定细度的泥浆,设置发泡剂可以非常均匀的分散于陶瓷基料中形成孔源;
(b)然后将泥浆进行喷雾干燥,泥浆雾化即为将泥浆分散为微细的雾滴,雾滴的平均直径为150~350μm,按粉料的不同用途,确定雾滴的大小,雾滴大小和均匀度对产品的质量影响很大,雾化的雾滴很细小,当雾滴与热空气接触时,极易发生传质和传热,从而使雾滴迅速气化,制成粉料,粉料的水分控制在7.8~8.2%;
(c)将粉料送入压砖机,压制成型(坯体),压砖机采用压力将粉料压制成一定形状的坯体;
(d)将坯体入干燥窑进行干燥,坯体干燥是指坯体中水分排除的过程,坯体经干燥后强度得到提高,这有利于搬运、装窑和烧成,水分减少能防止在烧成初期升温时因坯体水分大量排放而造成废品,坯体经干燥后留有2%左右的残余水分即可,过分干燥的坯体边角会有松脆现象,搬运时容易产生废品,同时也不经济,在本产品的烧制成型中要求残余水分小于0.5%;
(e)干燥好的坯体施釉、喷花或者加装饰效果材料,施釉厚度为0.1~1.0mm;
(f)表面处理完成后入烧成窑,在1150℃-1240℃下保温烧制40-60分钟,当烧制温度达到1150℃时,发泡剂开始分解反应,放出二氧化碳等气体,而这个温度下的坯体已经烧结并有大量的高温粘稠液相(玻璃相)形成,因而分解的气体被封在坯胎中,随着温度的升高,发泡剂继续分解,气体膨胀压力升高,气孔增大,坯胎随之膨胀,当烧制温度和时间达到设定值时,气体膨胀到一定体积后被封在坯体中而保持平衡,冷却后在坯体中形成无数个独立的小气孔,气孔孔径在0.2~1.0mm之间,得到烧制好的成品;
(g)烧制好的成品按要求磨削或切割,然后打包入库。
检验结果:13mm薄板,容重为1.43g/cm³,抗折强度为26MPa,单位面积重量18.6Kg。
实施例二
外墙轻质高强陶瓷保温装饰一体板的制备方法,包括以下步骤:
(a)先将55%工业废渣、30%的可塑黏土以及15%熔剂料,随后额外加入2.1%的发泡剂和0.6%的解胶剂以及余量水入磨,利用下落的研磨体(如钢球、鹅孵石等)的冲击作用以及研磨体与球磨内壁的研磨作用而将加入的物料粉碎并混合,当球磨转动时,由于研磨体与球磨内壁之间的摩擦作用,将研磨体依旋转的方向带上后再落下,这样物料就连续不断地被粉碎,使物料球磨成一定细度的泥浆,设置发泡剂可以非常均匀的分散于陶瓷基料中形成孔源;
(b)然后将泥浆进行喷雾干燥,泥浆雾化即为将泥浆分散为微细的雾滴,雾滴的平均直径为150~350μm,按粉料的不同用途,确定雾滴的大小,雾滴大小和均匀度对产品的质量影响很大,雾化的雾滴很细小,当雾滴与热空气接触时,极易发生传质和传热,从而使雾滴迅速气化,制成粉料,粉料的水分控制在7.8~8.2%;
(c)将粉料送入压砖机,压制成型(坯体);
(d)将坯体入干燥窑进行干燥,坯体干燥是指坯体中水分排除的过程,坯体经干燥后强度得到提高,这有利于搬运、装窑和烧成,水分减少能防止在烧成初期升温时因坯体水分大量排放而造成废品,坯体经干燥后留有2%左右的残余水分即可,过分干燥的坯体边角会有松脆现象,搬运时容易产生废品,同时也不经济,在本产品的烧制成型中要求残余水分小于0.5%;
(e)干燥好的坯体施釉、喷花或者加装饰效果材料,施釉厚度为0.1~1.0mm;
(f)表面处理完成后入烧成窑,在1150℃-1240℃下保温烧制50分钟,当烧制温度达到1150℃时,发泡剂开始分解反应,放出二氧化碳等气体,而这个温度下的坯体已经烧结并有大量的高温粘稠液相(玻璃相)形成,因而分解的气体被封在坯胎中,随着温度的升高,发泡剂继续分解,气体膨胀压力升高,气孔增大,坯胎随之膨胀,当烧制温度和时间达到设定值时,气体膨胀到一定体积后被封在坯体中而保持平衡,冷却后在坯体中形成无数个独立的小气孔,气孔孔径在0.2~1.0mm之间,得到烧制好的成品;
(g)烧制好的成品按要求磨削或切割,然后打包入库。
检验结果:15mm薄板,容重为1.35g/cm³,抗折强度为26MPa,单位面积重量20.1Kg。
尽管已经示出和描述了本发明的实施例,对于本领域的普通技术人员而言,可以理解在不脱离本发明的原理和精神的情况下可以对这些实施例进行多种变化、修改、替换和变型,本发明的范围由所附权利要求及其等同物限定。
Claims (8)
1.外墙轻质高强陶瓷保温装饰一体板的配方,其特征在于:所述外墙轻质高强陶瓷保温装饰一体板的配方由以下成分组成:
20~60%工业废渣、10~45%的可塑黏土、15~50%熔剂料、1~5%的发泡剂、1%~5%解胶剂以及余量水。
2.外墙轻质高强陶瓷保温装饰一体板的制备方法,包括以下步骤:
(a)先将20~60%工业废渣、10~45%的可塑黏土、15~50%熔剂料、1~5%的发泡剂和1%~5%解胶剂以及余量水入磨,球磨成一定细度的泥浆;
(b)然后将泥浆进行喷雾干燥,制成粉料;
(c)将粉料送入压砖机,压制成型(坯体);
(d)将坯体入干燥窑进行干燥;
(e)干燥好的坯体施釉、喷花或者加装饰效果材料;
(f)表面处理完成后入烧成窑,在1150℃--1240℃下保温烧制即成成品;
(g)烧制好的成品按要求磨削或切割,然后打包入库。
3.根据权利要求2所述的外墙轻质高强陶瓷保温装饰一体板的制备方法,其特征在于:所述a步骤中工业废渣为水煤浆炉燃烧充分的煤灰、废瓷砖或者瓷砖磨边料。
4.根据权利要求2所述的外墙轻质高强陶瓷保温装饰一体板的制备方法,其特征在于:所述a步骤中可塑性黏土为高岭土、膨润土或者球土。
5.根据权利要求2所述的外墙轻质高强陶瓷保温装饰一体板的制备方法,其特征在于:所述a步骤中熔剂料为瓷石、透辉石、钾长石或者钠长石。
6.根据权利要求2所述的外墙轻质高强陶瓷保温装饰一体板的制备方法,其特征在于:所述a步骤中发泡剂是细度为1~100μm的混合料。
7.根据权利要求2所述的外墙轻质高强陶瓷保温装饰一体板的制备方法,其特征在于:所述d步骤中坯体入干燥窑进行干燥后,干燥好的坯体水份小于0.5%。
8.根据权利要求2所述的外墙轻质高强陶瓷保温装饰一体板的制备方法,其特征在于:所述b步骤中粉料的水份控制在7.8~8.2%。
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