CN111548521A - 一种与apet托盘热封的透明易揭盖膜 - Google Patents
一种与apet托盘热封的透明易揭盖膜 Download PDFInfo
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Abstract
本发明公开了一种与APET托盘热封的透明易揭盖膜,包括基材和涂布于所述基材上的热封涂层,所述热封涂层为热封胶涂料涂布后干燥所得;所述基材为PET、PC、NY、BOPP、CPP或PE的一种;所述热封胶涂料,按重量份数,由以下组分组成:树脂100‑500份,添加剂0‑10份,溶剂200‑600份;所述热封涂层的厚度为0.5‑15μm。本发明的这种与APET托盘热封的透明易揭盖膜,采用溶液涂布的加工方式,将热封胶涂料涂覆于基材上,具有高透明、低气味和封口可靠的优点。
Description
技术领域
本发明涉及包装材料封装的技术领域,具体涉及一种与APET托盘热封的透明易揭盖膜。
背景技术
目前,“吸塑托盘+易揭盖膜”的包装产品已广泛地应用在熟食、干果和新鲜果蔬等产品的包装工序上。由于非结晶化聚对苯二甲酸乙二醇酯(APET)具有价廉、高透明、环保、易加工和物理机械性能优异的特点,APET常作为“吸塑托盘+易揭盖膜”的包装产品中的托盘。
而与APET热封的易揭盖膜,其材质主要是乙烯-醋酸乙烯共聚物(EVA),并通过以下两种方式制备得到易揭盖膜:(1)多层共挤吹膜,将带有EVA的多层共挤薄膜与其他薄膜贴合,贴合可以采用干复、无溶剂等加工方式;(2)在其他薄膜的表面淋覆EVA层。
但是,上述两种方式制得的易揭盖膜通常存在以下问题:
(1)由于EVA树脂在合成的过程中,可能有残留的单体,导致EVA耐热性不良,导致盖膜有异味;(2)多层共挤薄膜或淋覆层比较厚,厚度通常>20μm,不利于包装废弃后的回收利用;(3)由于EVA和APET的材质差异,导致EVA与APET封合后揭开方式为界面剥离,在可能有水或油的包装场合,会出现热封不良的情况。
发明内容
本发明提供了一种与APET托盘热封的透明易揭盖膜,采用溶液涂布的加工方式,将热封胶涂料涂覆于基材上,具有高透明、低气味和封口可靠的优点。
为了实现上述目的,本发明提供了如下技术方案:
一种与APET托盘热封的透明易揭盖膜,包括基材和涂布于所述基材上的热封涂层,所述热封涂层为热封胶涂料涂布后干燥所得;
所述基材为PET、PC、NY、BOPP、CPP或PE的一种;
所述热封胶涂料,按重量份数,由以下组分组成:树脂100-500份,添加剂0-10份,溶剂200-1150份;
所述热封涂层的厚度为0.5-15μm。
作为本发明的技术方案的进一步描述,所述树脂包括丙烯酸树脂、丙烯酸酯树脂、甲基丙烯酸树脂、甲基丙烯酸酯树脂、聚酯、共聚酯树脂、聚醋酸乙烯酯及其共聚物、聚乙烯及其共聚物、聚氯乙烯及其共聚物、聚丙烯及其共聚物、氯化聚丙烯及其共聚物、聚苯乙烯及其共聚物、聚氨酯及其共聚物、聚酰胺及其共聚物、聚醚及其共聚物、氨基树脂及其共聚物、聚乙烯亚胺及其共聚物、有机硅树脂、改性纤维素、聚偏氯乙烯及其共聚物、聚偏氟乙烯及其共聚物中的至少一种。
作为本发明的技术方案的进一步描述,所述溶剂为低沸点溶剂,其包括乙醇、乙酸乙酯、乙酸丙酯、乙酸丁酯、异丙醇、正丙醇、丁醇、异丁醇、正己烷、庚烷、异辛烷、甲乙酮的至少一种。
作为本发明的技术方案的进一步描述,所述热封涂层在所述基材中的涂层厚度为1-12μm。
作为本发明的技术方案的进一步描述,所述所述热封涂层在所述基材中的涂布方式为一次涂布完成,或者多层叠涂。
作为本发明的技术方案的进一步描述,所述透明易揭盖膜与APET的热封强度为2-25N/15mm。
本发明的有益效果在于:本发明提供的与APET托盘热封的透明易揭盖膜,采用溶液涂布的加工方式,将热封胶涂料涂覆于基材上,具有高透明、低气味和封口可靠的优点。
具体实施方式
下面结合具体的实施例对发明的技术方案做进一步的说明。
实施例1
一种与APET托盘热封的透明易揭盖膜,包括厚度为23μm的聚酯膜和涂布于聚酯膜上的热封涂层。其中,该热封涂层经由两层叠涂而得。
第一层的涂料,按重量份数,包括以下组分:
聚氨酯树脂乳液(固含50%) 100份
去离子水 25份;
上述的聚氨酯树脂的玻璃化温度为25℃,数均分子量为8000;按上述的重量份数得到第一层乳白色涂料,涂料固含量约为40%。
第二层的涂料,按重量份数,包括以下组分:
共聚酯A 30份
共聚酯B 70份
开口剂聚乙烯蜡粉 2份
有机硅爽滑剂 1份
乙酸乙酯 800份
乙酸丁酯 100份;
其中,共聚酯A的玻璃化温度为-38℃,数均分子量为36000,酸值为4;共聚酯B的玻璃化温度为52℃,数均分子量为12000,酸值为2。按上述的重量份数得到第二层乳白色涂料,涂料固含量约为10%。
上述与APET托盘热封的透明易揭盖膜,具体的制备方法为:采用网纹辊涂布,将第一层乳白色涂料涂布到23μm厚的透明聚酯膜上,上胶量为湿胶8g/㎡(干胶约3g/㎡),经过烘箱干燥得到半成品;之后再叠涂第二层乳白色涂料,上胶量为湿胶20g/㎡(干胶约2g/㎡),烘干得到对APET的透明易揭盖膜成品。
(1)对APET的透明易揭盖膜片材在不同温度下的热封强度进行测试,测试结果见表1:实施例1的透明易揭盖膜在不同温度下的热封强度测试表。
测试条件为盖膜侧热封刀加热,封合压力2kgf,压合时间1秒。
表1:实施例1的透明易揭盖膜在不同温度下的热封强度测试表
(2)将140℃热封的样条,在温湿度条件为30℃、95%RH的老化箱中放置48h后测试,封口强度为5.2N/15mm。
作为对比,制作得到的23μm厚的透明聚酯膜淋覆20μm厚的EVA样品PET23/EVA20,其140℃热封强度为10.6N/15mm,在温湿度条件为30℃、95%RH的老化箱中放置48h后测试,盖膜脱落。
将上述的实施例1的APET的透明易揭盖膜、透明聚酯膜(23μm厚)和PET23/EVA20挤复膜,分别进行薄膜透光率和雾度测试,测试结果表2。
表2不同透明聚酯膜样品的透光率和雾度测试表
| 样品 | 透光率(%) | 雾度(%) |
| 透明聚酯膜(23μm厚) | 88 | 2 |
| APET透明易揭盖膜(实施例1) | 85 | 4 |
| PET23/EVA20挤复膜 | 75 | 22 |
由表2可以看出,实施例1的APET的透明易揭盖膜的透光率要比PET23/EVA20挤复膜的透光率高,而且雾度值低。
实施例2
一种与APET托盘热封的透明易揭盖膜,包括厚度为19μm的聚酯膜和涂布于聚酯膜上的热封涂层。其中,该热封涂层经由两层叠涂而得。
第一层涂料,按重量份数,为聚乙烯亚胺溶液(固含5%)100份,该聚乙烯亚胺溶液为透明澄清溶液,数均分子量为2000。
第二层涂料,按重量份数,包括以下组分:
共聚酯A 18份
共聚酯B 82份
开口剂聚乙烯蜡粉 1.5份
有机硅爽滑剂 0.5份
乙酸乙酯 250份
乙酸丁酯 50份;
其中,共聚酯A的玻璃化温度为-21℃,数均分子量为30000,酸值为5;共聚酯B的玻璃化温度为48℃,数均分子量为15000,羟值为2。按上述的重量份数得到乳白色涂料,涂料固含量约为25%。
上述与APET托盘热封的透明易揭盖膜,具体的制备方法为:采用网纹辊涂布,将第一层涂料涂布到19μm厚的透明聚酯膜上,上胶量为湿胶4g/㎡(干胶约0.2g/㎡),经过烘箱干燥得到半成品;之后再叠涂第二层涂料,上胶量为湿胶8g/㎡(干胶约2g/㎡),烘干得到对APET的透明易揭盖膜成品。
(1)对APET的透明易揭盖膜片材在不同温度下的热封强度进行测试,测试结果见表3:实施例2的透明易揭盖膜在不同温度下的热封强度测试表。
测试条件为盖膜侧热封刀加热,封合压力2kgf,压合时间1秒。
表3:实施例2的透明易揭盖膜在不同温度下的热封强度测试表
(2)将140℃热封的样条,在温湿度条件为30℃、95%RH的老化箱中放置48h后测试,封口强度为5.0N/15mm。
将上述的实施例2的APET的透明易揭盖膜和透明聚酯膜(19μm厚),分别进行薄膜透光率和雾度测试,测试结果表4。
表4不同透明聚酯膜样品的透光率和雾度测试表
| 样品 | 透光率(%) | 雾度(%) |
| 透明聚酯膜(23μm厚) | 88 | 2 |
| APET透明易揭盖膜(实施例1) | 85 | 4 |
由表4可以看出,实施例2的APET的透明易揭盖膜的透光率与23μm厚的透明聚酯膜透光率相近,而且雾度值也只由2%升高到4%。
实施例3
一种与APET托盘热封的透明易揭盖膜,包括厚度为35μm的聚酯膜和涂布于聚酯膜上的热封涂层。其中,该热封涂层由两层叠涂而得。
第一层涂料,按重量份数,为聚乙烯亚胺(固含5%)100份,该聚乙烯亚胺溶液为透明澄清溶液,数均分子量为3000。
第二层涂料,按重量份数,包括以下组分:
共聚酯A 25份
共聚酯B 75份
开口剂聚乙烯蜡粉 1.5份
有机硅爽滑剂 0.5份
乙酸乙酯 1000份
乙酸丁酯 150份;
其中,共聚酯A的玻璃化温度为-21℃,数均分子量为30000,酸值为5;共聚酯B的玻璃化温度为48℃,数均分子量为15000,羟值为2。按上述的重量份数得到乳白色涂料,涂料固含量约为8%。
上述与APET托盘热封的透明易揭盖膜,具体的制备方法为:采用网纹辊涂布,将第一层涂料涂布到35μm厚的透明聚酯膜上,上胶量为湿胶4g/㎡(干胶约0.2g/㎡),经过烘箱干燥得到半成品;之后再叠涂第二层涂料,上胶量为湿胶25g/㎡(干胶约2g/㎡),烘干得到对APET的透明易揭盖膜成品。
(1)对APET的透明易揭盖膜片材在不同温度下的热封强度进行测试,测试结果见表5:实施例3的透明易揭盖膜在不同温度下的热封强度测试表。
测试条件为盖膜侧热封刀加热,封合压力2kgf,压合时间1秒。
表5:实施例3的透明易揭盖膜在不同温度下的热封强度测试表
(2)将140℃热封的样条,在温湿度条件为30℃、95%RH的老化箱中放置48h后测试,封口强度为5.1N/15mm。
将上述的实施例3的APET的透明易揭盖膜,与透明聚酯膜(35μm厚),分别进行薄膜透光率和雾度测试,测试结果表6。
表6不同透明聚酯膜样品的透光率和雾度测试表
| 样品 | 透光率(%) | 雾度(%) |
| 透明聚酯膜(35μm厚) | 88 | 1.9 |
| APET透明易揭盖膜(实施例3) | 85 | 4.9 |
由表6可以看出,实施例3的APET的透明易揭盖膜的透光率与35μm厚的透明聚酯膜透光率相近,而且雾度值也只由1.9%升高到4.9%。
实施例4
一种与APET托盘热封的透明易揭盖膜,包括厚度为50μm的聚酯膜和涂布于聚酯膜上的热封涂层。其中,该热封涂层由一次涂布而得。
该涂料按重量份数,按重量份数,包括以下组分:
共聚酯A 25份
共聚酯B 70份
聚氨酯C 5份
开口剂聚乙烯蜡粉 1.0份
有机硅爽滑剂 0.5份
乙酸乙酯 350份
乙酸丁酯 50份;
其中,共聚酯A的玻璃化温度为-21℃,数均分子量为30000,羟值为5;共聚酯B的玻璃化温度为48℃,数均分子量为15000,羟值为2;共聚氨酯C的玻璃化温度为25℃,数均分子量为6000。按上述的重量份数得到乳白色涂料,涂料固含量约为20%。
上述与APET托盘热封的透明易揭盖膜,具体的制备方法为:采用网纹辊涂布,将涂料一次涂布到50μm厚的透明聚酯膜上,上胶量为湿胶30g/㎡(干胶约6g/㎡),经过烘箱干燥得到对APET的透明易揭盖膜成品。
(1)对APET的透明易揭盖膜片材在不同温度下的热封强度进行测试,测试结果见表7:实施例4的透明易揭盖膜在不同温度下的热封强度测试表。
测试条件为盖膜侧热封刀加热,封合压力2kgf,压合时间1秒。
表7:实施例4的透明易揭盖膜在不同温度下的热封强度测试表
(2)将160℃热封的样条,在温湿度条件为30℃、95%RH的老化箱中放置48h后测试,封口强度为12.1N/15mm。
将上述的实施例4的APET的透明易揭盖膜,与透明聚酯膜(50μm厚),分别进行薄膜透光率和雾度测试,测试结果表8。
表8不同透明聚酯膜样品的透光率和雾度测试表
| 样品 | 透光率(%) | 雾度(%) |
| 透明聚酯膜(50μm厚) | 88 | 3.1 |
| APET透明易揭盖膜(实施例4) | 85 | 4.9 |
由表8可以看出,实施例4的APET的透明易揭盖膜的透光率与50μm厚的透明聚酯膜透光率相近,而且雾度值也只由3.1%升高到4.9%。
实施例5
一种与APET托盘热封的透明易揭盖膜,包括厚度为50μm的聚酯膜和涂布于聚酯膜上的热封涂层。其中,该热封涂层由一次涂布而得。
该涂料按重量份数,按重量份数,包括以下组分:
共聚酯A 85份
丙烯酸酯树脂B 10份
聚氨酯C 5份
开口剂聚乙烯蜡粉 1.0份
有机硅爽滑剂 0.5份
乙酸乙酯 350份
乙酸丁酯 50份;
其中,共聚酯A的玻璃化温度为24℃,数均分子量为30000,羟值为5;丙烯酸酯树脂B的玻璃化温度为48℃,数均分子量为10000;聚氨酯C的玻璃化温度为25℃,数均分子量为6000。按上述的重量份数得到乳白色涂料,涂料固含量约为20%。
上述与APET托盘热封的透明易揭盖膜,具体的制备方法为:采用网纹辊涂布,将涂料一次涂布到50μm厚的透明聚酯膜上,上胶量为湿胶30g/㎡(干胶约6g/㎡),经过烘箱干燥得到对APET的透明易揭盖膜成品。
(1)对APET的透明易揭盖膜片材在不同温度下的热封强度进行测试,测试结果见表9:实施例5的透明易揭盖膜在不同温度下的热封强度测试表。
测试条件为盖膜侧热封刀加热,封合压力2kgf,压合时间1秒。
表9:实施例5的透明易揭盖膜在不同温度下的热封强度测试表
(2)将180℃热封的样条,在温湿度条件为30℃、95%RH的老化箱中放置48h后测试,封口强度为18.4N/15mm。。
将上述的实施例5的APET的透明易揭盖膜,与透明聚酯膜(50μm厚),分别进行薄膜透光率和雾度测试,测试结果表10。
表10不同透明聚酯膜样品的透光率和雾度测试表
| 样品 | 透光率(%) | 雾度(%) |
| 透明聚酯膜(50μm厚) | 88 | 3.1 |
| APET透明易揭盖膜(实施例5) | 86 | 4.0 |
由表10可以看出,实施例5的APET的透明易揭盖膜的透光率与50μm厚的透明聚酯膜透光率相近,而且雾度值也只由3.1%升高到4.0%。
上述实施例1~实施例5提供的与APET托盘热封的透明易揭盖膜,采用溶液涂布的加工方式,将热封胶涂料涂覆于基材上,具有高透明、低气味和封口可靠的优点。
显然,本发明的上述实施例仅仅是为清楚地说明本发明所作的举例,而并非是对本发明的实施方式的限定。对于所属领域的普通技术人员来说,在上述说明的基础上还可以做出其它不同形式的变化或变动。这里无需也无法对所有的实施方式予以穷举。凡在本发明的精神和原则之内所作的任何修改、等同替换和改进等,均应包含在本发明权利要求的保护范围之内。
Claims (6)
1.一种与APET托盘热封的透明易揭盖膜,其特征在于,包括基材和涂布于所述基材上的热封涂层,所述热封涂层为热封胶涂料涂布后干燥所得;
所述基材为PET、PC、NY、BOPP、CPP或PE的一种;
所述热封胶涂料,按重量份数,由以下组分组成:树脂100-500份,添加剂0-10份,溶剂200-1150份;
所述热封涂层的厚度为0.5-15μm。
2.根据权利要求1所述的透明易揭盖膜,其特征在于,所述树脂包括丙烯酸树脂、丙烯酸酯树脂、甲基丙烯酸树脂、甲基丙烯酸酯树脂、聚酯、共聚酯树脂、聚醋酸乙烯酯及其共聚物、聚乙烯及其共聚物、聚氯乙烯及其共聚物、聚丙烯及其共聚物、氯化聚丙烯及其共聚物、聚苯乙烯及其共聚物、聚氨酯及其共聚物、聚酰胺及其共聚物、聚醚及其共聚物、氨基树脂及其共聚物、聚乙烯亚胺及其共聚物、有机硅树脂、改性纤维素、聚偏氯乙烯及其共聚物、聚偏氟乙烯及其共聚物中的至少一种。
3.根据权利要求1所述的透明易揭盖膜,其特征在于,所述溶剂为低沸点溶剂,其包括乙醇、乙酸乙酯、乙酸丙酯、乙酸丁酯、异丙醇、正丙醇、丁醇、异丁醇、正己烷、庚烷、异辛烷、甲乙酮的至少一种。
4.根据权利要求1所述的透明易揭盖膜,其特征在于,所述热封涂层在所述基材中的涂层厚度为1-12μm。
5.根据权利要求4所述的透明易揭盖膜,其特征在于,所述热封涂层在所述基材中的涂布方式为一次涂布完成,或者多层叠涂。
6.根据权利要求1所述的透明易揭盖膜,其特征在于,所述透明易揭盖膜与APET的热封强度为2-25N/15mm。
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| CN113801357A (zh) * | 2021-09-17 | 2021-12-17 | 海南赛诺实业有限公司 | 一种pp易揭膜及其制备方法 |
| CN114801401A (zh) * | 2022-03-23 | 2022-07-29 | 毕玛时软包装(苏州)有限公司 | 一种用于液体包装的洁净易揭封口盖膜 |
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