CN106758522B - 抗菌型耐磨装饰纸生产工艺 - Google Patents
抗菌型耐磨装饰纸生产工艺 Download PDFInfo
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Abstract
本发明公开了抗菌型耐磨装饰纸生产工艺,包括以下步骤:1)脲醛胶水配制;2)改性三胺胶水配制;3)原纸开卷;4)预湿;5)浸渍;6)烘干、喷涂;7)烘干、涂布;8)裁切、检验入库;本发明所采用的生产工艺流程简单,操作控制方便,使用配制的低摩尔比胶水,与白钢玉形成复合高分子材料,经过特殊的干燥曲线,达到高亮光,耐磨,高清晰,且装饰纸的甲醛释放量≤0.5,同时装饰纸的其它性能保持不变;按照本发明工艺生产的装饰纸为功能性材料,使用此装饰纸压成地板后,纳米材料会地板表面形成微量的臭氧薄层,抑制或杀灭细菌。同时地板的其它必能不受影响,特别适合于幼儿园,医院等公众场所。
Description
技术领域
本发明涉及一种抗菌型耐磨装饰纸生产工艺。
背景技术
贴面的纸张经过三聚氰胺胶水和一些添加剂浸渍后,就是三聚氰胺装饰纸。和板材(密度板、刨花板、胶合板),经过热压机钢板的热压成为饰面板材。国标GB/T28995上要求,装饰纸的甲醛释放量为A级1.5mg/L和B级3.0mg/L。
目前,装饰纸浸渍涂胶过后其具有较好的装饰性能,但是其甲醛的释放量较大,不环保,健康;而且其耐磨性不够高,表面不够光亮,使得装饰纸的寿命缩短,其清晰度也不够高,生产工艺相对复杂;此外,现有的装饰纸在浸渍之前需要配制合格的胶水,胶水的配制是整个装饰纸浸渍的关键,一般在胶水配制完成后,直接放置,没有一个恒温的贮存系统,使得胶水在冬天和夏天使用时受到限制,冬天胶水粘性不够,夏天胶水温度较高,均不利于在浸渍过程中使用,导致装饰纸的生产受到影响。
发明内容
针对上述存在的问题,本发明旨在提供抗菌型耐磨装饰纸生产工艺,本发明所采用的生产工艺流程简单,操作控制方便,使用配制的低摩尔比胶水,与白钢玉形成复合高分子材料,经过特殊的干燥曲线,达到高亮光,耐磨,高清晰,且装饰纸的甲醛释放量≤0.5,同时装饰纸的其它性能保持不变;通过本发明工艺生产的装饰纸为功能性材料,使用此装饰纸压成地板后,纳米材料会地板表面形成微量的臭氧薄层,抑制或杀灭细菌。同时地板的其它必能不受影响,特别适合于幼儿园,医院等公众场所。
为了实现上述目的,本发明所采用的技术方案如下:
抗菌型耐磨装饰纸生产工艺,包括以下步骤:
1)脲醛胶水配制
a、预热:预热前对合成罐进行清洗,清洗完后进行预热,预热温度升温2℃/min,预热12-15分钟,保温5分钟;
b、加甲醛:通过加料口向合成罐内逐渐加入甲醛48份,并搅拌,调节PH;
c、一次尿素注入:向预热保温的合成罐内加入18份尿素,升温速度1.5-2℃/min,温度升高到64-65℃,减缓加热,升温速度0.5-1℃/min,升温到88-92℃保温30分钟;
d、加甲酸:在甲醛搅拌的过程中,加入甲酸,调整到PH4.2-4.8;
e、加烧碱与水:当测到水溶倍数是5.0-6.0时,立即加入烧碱溶液,水,烧碱和水同步加入,调节PH在7-8,然后再同步加入三聚氰胺1-2份和增强剂2份;
f、二次尿素注入:接着向合成罐内二次加入尿素12份,保温10-20分钟;
g、降温:保温结束后,降温,降温速度2-2.5℃/min;
h、三次尿素注入:当温度降到65-67℃时,加入第三次尿素,继续降温,降温速度1.5-2℃/min,待温度≤45℃,停机取样,并将胶水放于恒温系统中贮藏;
2)改性三胺胶水配制
a、加甲醛:先在合成罐内加入计量好的软水,计量的甲醛42份,搅拌,调节PH值到9.0-9.5;
b、加三聚氰胺:接着加入三聚氰胺35-37份,逐渐升温,升温速度1.5-2℃/min,升温到65℃时加入甲醛捕捉剂64份和二甘醇3-5份;
c、检测云雾点:当出现云雾点后,检测水数达到1.1-1.2,加入已内酰胺,加入甲醛捕捉剂64份,降温,调PH9.5-9.6,降温在40度以下,保温停机,并将胶水放于恒温系统中贮藏;
3)原纸开卷;
4)预湿:原纸成卷开卷过程中对纤维纸进行预湿操作,通过蒸汽喷雾系统向上下压辊上喷水雾,润湿上下压辊,再将纤维纸依次传输通过上下压辊之间的空隙,可实现一次预湿;
5)浸渍:浸渍过程中先配浸渍胶,浸渍胶是采用步骤(1)合成并在恒温系统中的脲醛胶水100份、渗透剂0.2-0.5份、固化剂0.4-0.6份以及甲醛捕捉剂1-2份搅拌混合而成,将预湿的纤维纸通过浸渍槽对其进行全面浸渍操作,浸渍完计量;
6)烘干、喷涂:喷涂前配制喷涂胶,喷涂胶是采用步骤(2)合成并在恒温系统中贮藏的改性三胺胶水100份、固化剂0.15-0.35份、白刚玉25-40份、偶联剂0.05份搅拌混合而成,浸渍完后先烘干纤维纸,烘干后喷涂喷涂胶,喷涂过程中采用蒸汽辅助喷涂;
7)烘干、涂布:涂布前先配制涂布胶,涂布胶是采用步骤(2)合成的改性三胺胶水100份、固化剂0.25-0.45份、脱模剂0.15-0.25份、偶联剂0.02份以及纳米抗菌剂0.4-0.6份搅拌混合而成;喷涂完后经过烘干、再涂布、再烘干,形成高分子复合耐磨材料;
8)裁切、检验入库。
作为优选,所述恒温系统包括胶槽,所述胶槽外部设有包围其四周的夹套层,所述胶槽与夹套层之间形成调温腔,所述调温腔内设置螺旋盘绕在所述胶槽上的内壁导流板,所述胶槽的内部设置有多层中心同步调温管,每根所述中心同步调温管的两端部均与所述夹套层的调温腔连通设置,在所述胶槽内部设有高效搅拌器。
作为优选,所述高效搅拌器包括结构相同的左搅拌部分和右搅拌部分,所述左搅拌部分和右搅拌部分均包括旋转轴以及设于同一平面且固定在旋转轴上的至少一个搅拌桨,所述左搅拌部分和右搅拌部分上的搅拌桨上下交错设置。
作为优选,每个所述搅拌桨上设有多个弧形搅拌叶片,每个所述弧形搅拌叶片上还均设有一排竖向的胶水过渡孔,并在每个所述弧形搅拌叶片上横向设有至少一个搅拌锤,每个所述搅拌锤上设有密集排列的搅拌锥齿。
作为优选,多层所述中心同步调温管均为U形形状,多层所述中心同步调温管的口径由上向下依次增大,且所述高效搅拌器位于口径最小的那个所述中心同步调温管内。
作为优选,所述胶槽一侧设有水流进口,另一侧设有水流出口,在所述夹套层内还设有夹套温度计探头,所述水流进口连接有主进水管,所述水流出口与主进水管之间还连接循环水管,所述主进水管还分别与热水调节管、冷水调节管相连接。
作为优选,所述步骤(7)“烘干、涂布”中在涂布前段烘干温度为最高137℃,最低130℃,烘干时间3min,涂布过程采用先降温再升温的方式涂布,最高温度135℃,最低温度120℃,涂布时间4min,涂布完,再烘干的温度最高139℃,最低120℃,再烘干时间2min。
作为优选,所述前段烘干采用先升温再降温,涂布过程烘干采用先降温再升温,再烘干过程采用先升温再降温。
本发明的有益效果是:首先,本发明采用新的合成工艺以及使用改进的合成罐生产一种低摩尔比的脲醛胶水,生产出的胶水摩尔比达到1.0以内,其游离甲醛低于0.3%,生产出的产品更加环保,渗透性好,贮存期达7天,完全满足了浸渍生产要求,该胶水生产的装饰纸具有低甲醛的特点;其次,采用改性三胺胶水,其具有高流动性和高透明度,能在压贴时,形成连续的胶膜保护层,使板材的封闭性性更高;再次,由于装饰纸在生产配胶中再次加入了甲醛捕捉剂,在压贴过程,胶水释放的甲醛会被再次捕捉,从而实现到使用终端消费者时,板材游离的甲醛明显低于E0;使用低摩尔比胶水,与白钢玉形成复合高分子材料,经过特殊的干燥曲线,达到高亮光,耐磨,高清晰,同时装饰纸的其它性能保持不变。并且,与E1基材板配合,生产的板材产品经GB18580干燥器法检测,甲醛释放量也≤0.5mg/L。
本发明在涂布工序中,定量加入纳米银或纳米钙,再加入适量的分散剂和藕联剂,在规定的循环速度下,形成稳定的乳液,然后涂在纸面,调整烘干曲线,生产出抗菌表耐磨装饰纸。
本发明针对装饰纸生产过程中配制的胶水进行恒温贮藏,该恒温系统采用夹套式的胶槽,循环热水自动控温,温度波动范围小于1℃。增加了产品的稳定性,并且为了保证胶水外缘与内部中心处温度的一致性,故设置中心同步调温管,通过中心同步调温管不仅能够保证与夹套层内壁导流板温度调节的一致性,而且其能够辅助提高搅拌效果,使得搅拌效率提高,胶水的分子运动更加剧烈,在冬天升温以及在夏天降温均能达到较好的控制调节效果。
附图说明
图1为本发明整体结构示意图。
图2为本发明胶槽的示意图。
图3为本发明胶槽的俯视示意图。
图4为本发明弧形搅拌叶片的示意图。
图5为本发明烘箱温度曲线。
其中:1-1-胶槽,1-2-夹套层,1-3-调温腔,1-4-搅拌桨,1-5-弧形搅拌叶片,1-6-搅拌锤,1-7-搅拌锥齿,1-8-中心同步调温管,1-9-胶水过渡孔,1-10-水流进口,1-11-水流出口,1-12-主进水管,1-13-循环水管,1-14-回水管,1-15-热水调节管,1-16-冷水调节管,1-17-出料口,1-18-夹套温度计探头,1-19-循环水泵,1-20-内壁导流板,1-21-旋转轴。
具体实施方式
为了使本领域的普通技术人员能更好的理解本发明的技术方案,下面结合附图和实施例对本发明的技术方案做进一步的描述。
实施例:抗菌型耐磨装饰纸生产工艺,包括以下步骤:
1)脲醛胶水配制
a、预热:预热前对合成罐进行清洗,清洗完后进行预热,预热温度升温2℃/min,预热12-15分钟,保温5分钟;
b、加甲醛:通过加料口向合成罐内逐渐加入甲醛48份,并搅拌,调节PH;
c、一次尿素注入:向预热保温的合成罐内加入18份尿素,升温速度1.5-2℃/min,温度升高到64-65℃,减缓加热,升温速度0.5-1℃/min,升温到88-92℃保温30分钟;
d、加甲酸:在甲醛搅拌的过程中,加入甲酸,调整到PH4.2-4.8;
e、加烧碱与水:当测到水溶倍数是5.0-6.0时,立即加入烧碱溶液,水,烧碱和水同步加入,调节PH在7-8,然后再同步加入三聚氰胺1-2份和增强剂2份;
f、二次尿素注入:接着向合成罐内二次加入尿素12份,保温10-20分钟;
g、降温:保温结束后,降温,降温速度2-2.5℃/min;
h、三次尿素注入:当温度降到65-67℃时,加入第三次尿素,继续降温,降温速度1.5-2℃/min,待温度≤45℃,停机取样,并将胶水放于恒温系统中贮藏;
采用本发明工艺生产的脲醛胶水的摩尔比为0.91;游离甲醛低于0.2%;本发明超低的脲胶摩尔比,胶水中含有游离甲醛很低,同时,胶水中存大量的活性基团,能在固化过程中捕捉更多的游离甲醛;
2)改性三胺胶水配制
a、加甲醛:先在合成罐内加入计量好的软水,计量的甲醛42份,搅拌,调节PH值到9.0-9.5;
b、加三聚氰胺:接着加入三聚氰胺35-37份,逐渐升温,升温速度1.5-2℃/min,升温到65℃时加入甲醛捕捉剂64份和二甘醇3-5份;
c、检测云雾点:当出现云雾点后,检测水数达到1.1-1.2,加入已内酰胺,加入甲醛捕捉剂64份,降温,调PH9.5-9.6,降温在40度以下,保温停机,并将胶水放于恒温系统中贮藏;成品胶水指标:水溶倍数为1.3~1.5,PH值:9.5~9.8,粘度16-17秒;
胶水具有高流动性和高透明度,能在压贴时,形成连续的胶膜保护层,使板材的封闭性性更高;
参照附图1-4所示的一种胶水恒温系统,包括胶槽1-1,所胶槽1-1底部还设置出料口1-17,述胶槽1-1外部设有包围其四周的夹套层1-2,所述胶槽1-1与夹套层1-2之间形成调温腔1-3,所述调温腔1-3内设置螺旋盘绕在所述胶槽1-1上的内壁导流板1-20,所述胶槽1-1的内部设置有多层中心同步调温管1-8,每根所述中心同步调温管1-8的两端部均与所述夹套层1-2的调温腔1-3连通设置,在所述胶槽1-1内部设有高效搅拌器。
在本发明中,所述高效搅拌器包括结构相同的左搅拌部分和右搅拌部分,所述左搅拌部分和右搅拌部分均包括旋转轴1-21以及设于同一平面且固定在旋转轴1-21上的至少一个搅拌桨1-4,所述左搅拌部分和右搅拌部分上的搅拌桨1-4上下交错设置,每个所述搅拌桨1-4上设有多个弧形搅拌叶片1-5,每个所述弧形搅拌叶片1-5上还均设有一排竖向的胶水过渡孔1-9,并在每个所述弧形搅拌叶片1-5上横向设有至少一个搅拌锤1-6,每个所述搅拌锤1-6上设有密集排列的搅拌锥齿1-7;本发明将左搅拌部分和右搅拌部分交错设置的目的是两个搅拌部分在搅拌时可以形成较大的翻滚力度,提高搅拌效率,提高温度调节的均匀度,而且再加上搅拌锤1-6的辅助作用,以及胶水过渡孔1-9的过渡流动效果,搅拌过程中一小部分胶水通过胶水过渡孔1-9流过,形成一种流动轨迹,辅助增加搅拌效果,并且胶水过渡孔1-9的设置也能减小胶水与弧形搅拌叶片1-5接触过程中较大的压力或者撞击力度,降低弧形搅拌叶片1-5的损坏系数,延长其使用寿命。
在本发明中,多层所述中心同步调温管1-8均为U形形状,多层所述中心同步调温管1-8的口径由上向下依次增大,且所述高效搅拌器位于口径最小的那个所述中心同步调温管1-8内,所述胶槽1-1一侧设有水流进口1-10,另一侧设有水流出口1-11,在所述夹套层1-2内还设有夹套温度计探头1-18,所述水流进口1-10连接有主进水管1-12,主进水管1-12上还设置循环水泵1-19,所述水流出口1-11与主进水管1-12之间还连接循环水管1-13,循环水管1-13还连接有回水管1-14,所述主进水管1-12还分别与热水调节管1-15、冷水调节管1-16相连接。
运行原理:
1、在冬季气温低,对胶水粘度和贮存期有影响时,打开阀K2,热水流经线路:1→k2→K1→2→循环水泵→夹套→3→4→5→回流到热水箱(加热后重复使用),同时热水还经由中心同步调温管对胶槽内的胶水进行各个部位的同步加热。
2、当夹套温度达到要求时,夹套温度探头将信号传给温控器,温控器发出指令,使K1关闭,外来热水源截断。此时热水流经途径:3→4→6→水泵→夹套,达到内部循环供热。
3、当夹套温度控头监测到温度接近设定温度时,通过温控器PID运算,控制阀K1通断时长;无论K1通断与否,内循环水泵保持工作,夹套的水流不断,所以达到温度稳定,实现自动控制。
4、夹套内壁设有螺旋式的内壁导流板,使循环水流沿桶壁螺旋状上升,充分与桶内物流交换热量,使桶内物料温度更均匀。
5、当夏天气温高时,与冬季原理相同,关闭阀K1,打开阀K3运行即可。
3)原纸开卷;
4)预湿:原纸成卷开卷过程中对纤维纸进行预湿操作,通过蒸汽喷雾系统向上下压辊上喷水雾,润湿上下压辊,再将纤维纸依次传输通过上下压辊之间的空隙,可实现一次预湿;
5)浸渍:浸渍过程中先配浸渍胶,浸渍胶是采用步骤(1)合成的脲醛胶水100份、渗透剂0.2-0.5份、固化剂0.4-0.6份以及甲醛捕捉剂1-2份搅拌混合而成,将预湿的纤维纸通过浸渍槽对其进行全面浸渍操作,浸渍完计量;
6)烘干、喷涂:喷涂前配制喷涂胶,喷涂胶是采用步骤(2)合成的改性三胺胶水100份、固化剂0.15-0.35份、白刚玉25-40份、偶联剂0.05份搅拌混合而成,浸渍完后先烘干纤维纸,烘干后喷涂喷涂胶,喷涂过程中采用蒸汽辅助喷涂;
7)烘干、涂布:涂布前先配制涂布胶,涂布胶是采用步骤(2)合成的改性三胺胶水100份、固化剂0.25-0.45份、脱模剂0.15-0.25份、偶联剂0.02份以及纳米抗菌剂0.4-0.6份搅拌混合而成;喷涂完后经过烘干、再涂布、再烘干,形成高分子复合耐磨材料;
涂布前段烘干温度为最高137℃,最低130℃,烘干时间3min,涂布过程采用先降温再升温的方式涂布,最高温度135℃,最低温度120℃,涂布时间4min,涂布完,再烘干的温度最高139℃,最低120℃,再烘干时间2min,所述前段烘干采用先升温再降温,涂布过程烘干采用先降温再升温,再烘干过程采用先升温再降温;在烘干过程中,通过控制涂布前段烘干温度比正常温度高5-10℃,采用才能保证低醛胶水的预缩聚,挥发物保证在在13%;在后段烘中,低温区温度为120℃,高温区温度为139℃,促使甲醛捕捉剂与甲醛发生化合反应,大幅降低纸张甲醛,经过烘干,再涂布,再烘干,就形成高分子复合耐磨材料。其中,由于使用了低摩尔比的脲胶,改性三胺胶水,甲醛捕捉剂等材料共混复合,所以得到很低甲醛释放量的材料;在涂布胶水中加放纳米抗菌材料,就形成高分子复合纳米材料。经过涂布辊均匀涂在装饰纸表面。由于纳米材料会纸张固化有一事实上的影响,所以需要重新设定胶水固化时间为6-7分钟,同时纳米材料对板材膜模效果有影响,需要增加脱模剂加量。
8)裁切、检验入库。
抗菌型耐磨装饰纸指标描述
抗菌原理:装饰纸在压贴时,在脱模剂的协同作用下,纳米材料会尽量留板材表面,在表面胶水经偶联剂与纳米材料桥接,形成质地均匀的透明胶膜。纳米材料吸收自然光,在表面与空气作用,持续产生一层极薄臭氧层,臭氧对细菌有较强的抑制和杀灭作用。
由于纳米材料释放的臭氧会对板材表面造成微量氧化作用,如果使用普通三胺胶水,会对板材的表面效果形成影响,影响最终产品的使用寿命,故采用高韧性的改性三胺胶水,抵抗材料表面高分子层氧化断链,保证产品的使用寿命达到要求。
由于纳米材料是与胶水结合在一起的,故纳米材料不易被磨损缺失,能持续产生作用,直到地板使用寿命终结。
以上显示和描述了本发明的基本原理、主要特征和本发明的优点。本行业的技术人员应该了解,本发明不受上述实施例的限制,上述实施例和说明书中描述的只是说明本发明的原理,在不脱离本发明精神和范围的前提下,本发明还会有各种变化和改进,这些变化和改进都落入要求保护的本发明范围内。本发明要求保护范围由所附的权利要求书及其等效物界定。
Claims (3)
1.抗菌型耐磨装饰纸生产工艺,其特征在于,包括以下步骤:
1)脲醛胶水配制
a、预热:预热前对合成罐进行清洗,清洗完后进行预热,预热温度升温2℃/min,预热12-15分钟,保温5分钟;
b、加甲醛:通过加料口向合成罐内逐渐加入甲醛48份,并搅拌,调节PH;
c、一次尿素注入:向预热保温的合成罐内加入18份尿素,升温速度1.5-2℃/min,温度升高到64-65℃,减缓加热,升温速度0.5-1℃/min,升温到88-92℃保温30分钟;
d、加甲酸:在甲醛搅拌的过程中,加入甲酸,调整到pH4 .2-4.8;
e、加烧碱与水:当测到水溶倍数是5.0-6.0时,立即加入烧碱溶液,水,烧碱和水同步加入,调节pH 在7-8,然后再同步加入三聚氰胺1-2份和增强剂2份;
f、二次尿素注入:接着向合成罐内二次加入尿素12份,保温10-20分钟;
g、降温:保温结束后,降温,降温速度2-2.5℃/min;
h、三次尿素注入:当温度降到65-67℃时,加入第三次尿素,继续降温,降温速度1.5-2℃/min,待温度≤45℃,停机取样,并将胶水放于恒温系统中贮藏;
所述恒温系统包括胶槽,所述胶槽外部设有包围其四周的夹套层,所述胶槽与夹套层之间形成调温腔,所述调温腔内设置螺旋盘绕在所述胶槽上的内壁导流板,所述胶槽的内部设置有多层中心同步调温管,每根所述中心同步调温管的两端部均与所述夹套层的调温腔连通设置,在所述胶槽内部设有高效搅拌器;所述高效搅拌器包括结构相同的左搅拌部分和右搅拌部分,所述左搅拌部分和右搅拌部分均包括旋转轴以及设于同一平面且固定在旋转轴上的至少一个搅拌桨,所述左搅拌部分和右搅拌部分上的搅拌桨上下交错设置;每个所述搅拌桨上设有多个弧形搅拌叶片,每个所述弧形搅拌叶片上还均设有一排竖向的胶水过渡孔,并在每个所述弧形搅拌叶片上横向设有至少一个搅拌锤,每个所述搅拌锤上设有密集排列的搅拌锥齿;多层所述中心同步调温管均为U形形状,多层所述中心同步调温管的口径由上向下依次增大,且所述高效搅拌器位于口径最小的那个所述中心同步调温管内;
2)改性三胺胶水配制
a、加甲醛:先在合成罐内加入计量好的软水,计量的甲醛42份,搅拌,调节pH 值到9.0-9.5;
b、加三聚氰胺:接着加入三聚氰胺35-37份,逐渐升温,升温速度1.5-2℃/min,升温到65℃时加入甲醛捕捉剂64份和二甘醇3-5份;
c、检测云雾点:当出现云雾点后,检测水数达到1.1-1.2,加入已内酰胺,加入甲醛捕捉剂64份,降温,调pH9 .5-9.6,降温在40度以下,保温停机,并将胶水放于恒温系统中贮藏;
3)原纸开卷;
4)预湿:原纸成卷开卷过程中对纤维纸进行预湿操作,通过蒸汽喷雾系统向上下压辊上喷水雾,润湿上下压辊,再将纤维纸依次传输通过上下压辊之间的空隙,可实现一次预湿;
5)浸渍:浸渍过程中先配浸渍胶,浸渍胶是采用步骤(1)合成并在恒温系统中的脲醛胶水100份、渗透剂0.2-0.5份、固化剂0.4-0.6份以及甲醛捕捉剂1-2份搅拌混合而成,将预湿的纤维纸通过浸渍槽对其进行全面浸渍操作,浸渍完计量;
6)烘干、喷涂:喷涂前配制喷涂胶,喷涂胶是采用步骤(2)合成并在恒温系统中贮藏的改性三胺胶水100份、固化剂0.15-0.35份、白刚玉25-40份、偶联剂0.05份搅拌混合而成,浸渍完后先烘干纤维纸,烘干后喷涂喷涂胶,喷涂过程中采用蒸汽辅助喷涂;
7)烘干、涂布:涂布前先配制涂布胶,涂布胶是采用步骤(2)合成的改性三胺胶水100份、固化剂0.25-0.45份、脱模剂0.15-0.25份、偶联剂0.02份以及纳米抗菌剂0.4-0.6份搅拌混合而成;喷涂完后经过烘干、再涂布、再烘干,形成高分子复合耐磨材料;
在涂布前段烘干温度为最高137℃,最低130℃,烘干时间3min,涂布过程采用先降温再升温的方式涂布,最高温度135℃,最低温度120℃,涂布时间4min,涂布完,再烘干的温度最高139℃,最低120℃,再烘干时间2min;
8)裁切、检验入库。
2.根据权利要求1所述的抗菌型耐磨装饰纸生产工艺,其特征在于:所述胶槽一侧设有水流进口,另一侧设有水流出口,在所述夹套层内还设有夹套温度计探头,所述水流进口连接有主进水管,所述水流出口与主进水管之间还连接循环水管,所述主进水管还分别与热水调节管、冷水调节管相连接。
3.根据权利要求1所述的抗菌型耐磨装饰纸生产工艺,其特征在于:所述前段烘干采用先升温再降温,涂布过程烘干采用先降温再升温,再烘干过程采用先升温再降温。
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103978773A (zh) * | 2014-05-05 | 2014-08-13 | 北华大学 | 一种抗菌三聚氰胺甲醛树脂浸渍薄木 |
CN105369687A (zh) * | 2015-10-22 | 2016-03-02 | 江苏建丰装饰纸有限公司 | 低甲醛家具用浸渍胶膜纸的制作方法 |
CN105421154A (zh) * | 2015-10-22 | 2016-03-23 | 江苏建丰装饰纸有限公司 | 一种液体耐磨纸及其生产工艺 |
CN105464335A (zh) * | 2015-12-28 | 2016-04-06 | 德华兔宝宝装饰新材股份有限公司 | 一种浸渍纸饰面osb复合地板及制备方法 |
CN105599419A (zh) * | 2015-12-22 | 2016-05-25 | 江苏中欧生态环境科技有限公司 | 净醛抗菌三聚氰胺浸渍纸复合材料制造方法 |
-
2016
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Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103978773A (zh) * | 2014-05-05 | 2014-08-13 | 北华大学 | 一种抗菌三聚氰胺甲醛树脂浸渍薄木 |
CN105369687A (zh) * | 2015-10-22 | 2016-03-02 | 江苏建丰装饰纸有限公司 | 低甲醛家具用浸渍胶膜纸的制作方法 |
CN105421154A (zh) * | 2015-10-22 | 2016-03-23 | 江苏建丰装饰纸有限公司 | 一种液体耐磨纸及其生产工艺 |
CN105599419A (zh) * | 2015-12-22 | 2016-05-25 | 江苏中欧生态环境科技有限公司 | 净醛抗菌三聚氰胺浸渍纸复合材料制造方法 |
CN105464335A (zh) * | 2015-12-28 | 2016-04-06 | 德华兔宝宝装饰新材股份有限公司 | 一种浸渍纸饰面osb复合地板及制备方法 |
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