CN105949911B - 一种纳米自洁式真石漆及其制备方法 - Google Patents
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Abstract
本发明公开了一种纳米自洁式真石漆及其制备方法,纳米自洁式真石漆的具体组分和重量比例是:水,8%~14%;专用乳液,18%~24%;各色天然石英砂,50%~75%;超疏水纳米二氧化硅,3%~4%;纳米二氧化钛,1%~3%;羟乙基纤维素,0.1%~0.2%;润湿剂,0.01%~0.1%;分散剂,0.01%~0.5%;消泡剂,0.01%~0.05%;增稠剂,0.1%~0.3%;成膜助剂,0.05%~0.5%。本发明公开的纳米自洁式真石漆既具有花岗岩的装饰效果,又具有附着力强,安全可靠,易施工等优点;更具有极强的疏水、耐污及自洁能力,能有效地阻止大气污染对建筑物的外墙污染及侵蚀,较好的保持建筑物外墙面的整洁、美观和完好,创造清洁、优美的城市市容环境。
Description
技术领域
本发明涉及建筑涂料技术领域,尤其涉及一种纳米自洁式真石漆及其制备方法。
背景技术
天然真石漆作为建筑外墙乳胶涂料的一个亮点,是近几年建筑涂料研究最活跃、发展最迅速的一个方向。真石漆作为外墙建筑涂料,涂膜长期暴露在自然环境中,能否有效抵抗外来污染,保持外观清洁,对建筑物的装饰效果来说,是十分重要的。耐沾污性一直以来是真石漆行业急需解决的一大难题。灰层和污染物在真石漆表面的沉积和渗入,无论雨水还是人工都非常难以清除,对建筑物外观造成很大的影响。基于上述现状,目前对超耐候、抗污染的纳米自洁式真石漆的研究尤为必要。
发明内容
本发明的目的在于克服上述现有技术之不足而提供一种纳米自洁式真石漆,可仿制各种大理石纹格,形象自然逼真,用于建筑物墙面的装饰涂料。该真石漆既具有花岗岩的装饰效果,又具有附着力强,安全可靠,易施工等优点;更具有极强的疏水、耐污及自洁能力,能有效地阻止大气污染对建筑物的外墙污染及侵蚀,较好的保持建筑物外墙面的整洁、美观和完好,创造清洁、优美的城市市容环境。
为实现上述目的,本发明提供一种纳米自洁式真石漆,按质量百分比,其由以下组分组成:水,8%~14%;专用乳液,18%~24%;各色天然石英砂,50%~75%;超疏水纳米二氧化硅,3%~4%;纳米二氧化钛,1%~3%;羟乙基纤维素,0.1%~0.2%;润湿剂,0.01%~0.1%;分散剂,0.01%~0.5%;消泡剂,0.01%~0.05%;增稠剂,0.1%~0.3%;成膜助剂,0.05%~0.5%。
优选的,所述专用乳液为硅丙乳液或改性硅丙乳液中一种或两种。
优选的,所述超疏水纳米二氧化硅的粒径为40~80nm,具有良好的疏水性和分散性。
优选的,所述纳米TiO2的粒径为20~70nm,拥有较强的光催化活性,使真石漆有很强的自清洁能力和抗菌性。
优选的,所述纳米TiO2的表面经硅烷偶联剂或超分散剂进行了处理,有效防止了纳米TiO2粒子之间的凝聚,确保了其具有良好的分散性。
本发明还公开了一种真石漆制备方法,所述真石漆生产步骤为:
步骤101,按如上述的纳米自洁式真石漆的重量比称量物料;
步骤201,先将水、各种助剂、专用乳液进行混合、搅拌10min;
步骤301,待搅拌均匀后依次加入各色天然石英砂、超疏水纳米二氧化硅、纳米二氧化钛,充分混合搅拌20min左右,确认均匀后调整粘度及颜色,检测罐装。
本发明公开的纳米自洁式真石漆既具有花岗岩的装饰效果,又具有附着力强,安全可靠,易施工等优点;更具有极强的疏水、耐污及自洁能力,能有效地阻止大气污染对建筑物的外墙污染及侵蚀,较好的保持建筑物外墙面的整洁、美观和完好,创造清洁、优美的城市市容环境。
与现有技术相比,本发明的有益效果:
1、纳米自洁式真石漆采用的纳米材料经表面处理后,可有效防止纳米粒子间的凝聚,确保其具有较好的分散性。
2、真石漆中增加纳米TiO2后拥有光催化活性,使真石漆有很强的自清洁能力和抗菌性。
3、本发明稳定性好,可靠性佳,易于推广应用,经济价值高。
具体实施方式
实施例1:一种真石漆制备方法
在配漆罐内加入水,边搅拌边加入0.1%的羟乙基纤维素、18%的硅丙乳液、0.03%的润湿剂、0.1%的分散剂、0.02%的消泡剂、0.2%的成膜助剂,充分混合搅拌,时间为10min,再边搅拌边加入65%的天然石英砂、3.6%的超疏水纳米二氧化硅;1.4%的纳米二氧化钛,充分混合搅拌20min左右,确认均匀后调整粘度及颜色,检测罐装。
实施例2:一种真石漆制备方法
在配漆罐内加入水,边搅拌边加入0.15%的羟乙基纤维素、22%的硅丙乳液、0.09%的润湿剂、0.35%的分散剂、0.01%的消泡剂、0.15%的成膜助剂,充分混合搅拌,时间为10min,再边搅拌边加入70%的天然石英砂、3%的超疏水纳米二氧化硅;3%的纳米二氧化钛,充分混合搅拌20min左右,确认均匀后调整粘度及颜色,检测罐装。
实施例3:一种真石漆制备方法
在配漆罐内加入水,边搅拌边加入0.2%的羟乙基纤维素、20%的改性硅丙乳液、0.06%的润湿剂、0.5%的分散剂、0.04%的消泡剂、0.45%的成膜助剂,充分混合搅拌,时间为10min,再边搅拌边加入68%的天然石英砂、3.2%的超疏水纳米二氧化硅;2.1%的纳米二氧化钛,充分混合搅拌20min左右,确认均匀后调整粘度及颜色,检测罐装。
实施例4:一种真石漆制备方法
在配漆罐内加入水,边搅拌边加入0.12%的羟乙基纤维素、24%的硅丙乳液、0.03%的润湿剂、0.1%的分散剂、0.02%的消泡剂、0.2%的成膜助剂,充分混合搅拌,时间为10min,再边搅拌边加入57%的天然石英砂、3.4%的超疏水纳米二氧化硅;3%的纳米二氧化钛,充分混合搅拌20min左右,确认均匀后调整粘度及颜色,检测罐装。
实施例5:一种真石漆制备方法
在配漆罐内加入水,边搅拌边加入0.18%的羟乙基纤维素、23%的改性硅丙乳液、0.08%的润湿剂、0.33%的分散剂、0.03%的消泡剂、0.42%的成膜助剂,充分混合搅拌,时间为10min,再边搅拌边加入50%的天然石英砂、4%的超疏水纳米二氧化硅;1.8%的纳米二氧化钛,充分混合搅拌20min左右,确认均匀后调整粘度及颜色,检测罐装。
实施例6:纳米自洁式真石漆的耐沾污性评估方法
取一定量如根据实施例1至5任一项所述的制备方法制备的纳米自洁式真石漆,将该真石漆按照标准“JG/T 24-2000”中“6.15 耐沾污性”试验方法进行试验。
预期得到的试验结果:参照“评定等级”,普通真石漆的耐沾污性等级为2;本发明中纳米自洁式真石漆的耐沾污性等级为0。任何人可以复现本试验,用以验证本发明的真石漆耐沾污性优于现有的普通真石漆。实施例6给出了一种耐沾污性的评估方式,本领域的技术人员可以通过上述提及的标准进行试验,用以检验本发明的耐沾污性效果。
综上所述,本发明公开的纳米自洁式真石漆既具有花岗岩的装饰效果,又具有附着力强,安全可靠,易施工等优点;更具有极强的疏水、耐污及自洁能力,能有效地阻止大气污染对建筑物的外墙污染及侵蚀,较好的保持建筑物外墙面的整洁、美观和完好,创造清洁、优美的城市市容环境。纳米自洁式真石漆采用的纳米材料经表面处理后,可有效防止纳米粒子间的凝聚,确保其具有较好的分散性。真石漆中增加纳米TiO2后拥有光催化活性,使真石漆有很强的自清洁能力和抗菌性。本发明稳定性好,可靠性佳,易于推广应用,经济价值高。
尽管上面已经示出和描述了本发明的实施例,可以理解的是,上述实施例是示例性的,不能理解为对本发明的限制,本领域的普通技术人员在不脱离本发明的原理和宗旨的情况下在本发明的范围内可以对上述实施例进行变化、修改、替换。
Claims (1)
1.一种真石漆制备方法,其特征在于,生产步骤为:
步骤101,按纳米自洁式真石漆的重量比称量物料,其中,纳米自洁式真石漆,按质量百分比,其由以下组分组成:
水,8%~14%;
专用乳液,18%~24%;
各色天然石英砂,50%~75%;
超疏水纳米二氧化硅,3%~4%;
纳米二氧化钛,1%~3%;
羟乙基纤维素,0.1%~0.2%;
润湿剂,0.01%~0.1%;
分散剂,0.01%~0.5%;
消泡剂,0.01%~0.05%;
增稠剂,0.1%~0.3%;
成膜助剂,0.05%~0.5%;
所述专用乳液为硅丙乳液或改性硅丙乳液中一种或两种;所述超疏水纳米二氧化硅的粒径为40~80nm;所述纳米TiO2的粒径为20~70nm;所述纳米TiO2的表面经硅烷偶联剂或超分散剂进行处理;
步骤201,先将水、各种助剂、专用乳液进行混合、搅拌10min;
步骤301,待搅拌均匀后依次加入各色天然石英砂、超疏水纳米二氧化硅、纳米二氧化钛,充分混合搅拌20min左右,确认均匀后调整粘度及颜色,检测罐装。
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| CN109021749A (zh) * | 2018-08-01 | 2018-12-18 | 淮北庆丰涂料有限公司 | 一种外墙乳胶漆 |
| CN110218027B (zh) * | 2019-06-17 | 2021-12-31 | 济宁学院 | 一种以玻璃微珠为骨料自清洁真石漆及其制备方法 |
| CN110256920A (zh) * | 2019-06-25 | 2019-09-20 | 济宁学院 | 一种掺混有机包覆玻璃微珠的纳米自洁式真石漆及方法 |
| CN110228970B (zh) * | 2019-06-27 | 2021-11-12 | 济宁学院 | 一种具有良好抗污自清洁能力的真石漆及其制备方法 |
| CN110256926A (zh) * | 2019-07-04 | 2019-09-20 | 济宁学院 | 一种纳米自洁式真石漆及使用方法 |
| CN110759668B (zh) * | 2019-10-21 | 2021-12-17 | 济宁学院 | 一种抗龟裂自清洁的真石漆及其制备方法 |
| CN111072321A (zh) * | 2020-01-20 | 2020-04-28 | 山东赛德丽新材料股份有限公司 | 一种纳米自清洁真石漆的制备方法 |
| CN115304976A (zh) * | 2022-09-05 | 2022-11-08 | 龙牌涂料(北京)有限公司 | 一种具有自洁功能的环保外墙质感涂料及制备方法 |
| CN115403978B (zh) * | 2022-09-13 | 2023-03-17 | 中铁十八局集团北京工程有限公司 | 一种外墙天然真石漆涂层结构 |
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| FR2858978B1 (fr) * | 2003-08-22 | 2005-11-11 | Tf Chimie | Composition pour revetement de protection et de decoration des sols. |
| CN102702931B (zh) * | 2012-06-29 | 2014-05-21 | 齐鲁工业大学 | 二氧化钛-二氧化硅-环氧树脂复合超疏水涂层的制备 |
| CN103450767A (zh) * | 2013-08-14 | 2013-12-18 | 青岛益群漆业集团有限公司 | 超耐候抗污真石漆 |
| CN104109439B (zh) * | 2014-07-28 | 2016-03-30 | 漳州三德利油漆涂料有限公司 | 一种保温真石漆及其制备方法 |
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