CN105885736A - 一种高性能高分子材料、其制备方法及其应用 - Google Patents

一种高性能高分子材料、其制备方法及其应用 Download PDF

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CN105885736A
CN105885736A CN201610265816.6A CN201610265816A CN105885736A CN 105885736 A CN105885736 A CN 105885736A CN 201610265816 A CN201610265816 A CN 201610265816A CN 105885736 A CN105885736 A CN 105885736A
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王薇
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Abstract

本发明涉及一种高分子材料,由以下组分按照重量分数组成:聚氯乙烯糊树脂(聚合度1000)99‑120份、增塑剂体系77‑99份,发泡剂体系2.1‑3.3份,菜籽油6.5‑ 8.5份;碳酸钙0‑20份,甲壳素10‑18份,纳米二氧化钛3.2‑4.8份。本发明原料相互配合,制备的密封胶无论从表观、理化指标还是性能指标,都达到了优异的效果。同时,因为本发明中添加了甲壳素和纳米氧化钛等非常用的原料,因此在制备方法中严格限定了原料的添加顺序和添加量,使制备的密封胶性能优异。

Description

一种高性能高分子材料、其制备方法及其应用
技术领域
本发明属于高分子材料及其制备技术领域,涉及一种环保、安全的食品包装用高分子材料及其制备方法和应用。
背景技术
包装瓶作为一种常用的食品包装材料,在食品包装领域用量巨大,在包装瓶的瓶盖中会使用到密封胶,密封胶的质量好坏,直接影响到食品的安全性能,有些密封胶虽然有很好的密封性能,但是材料中添加了很多有毒的原料,例如邻苯二甲酸酯类增塑剂、环氧类增塑剂等,对食品安全带来了很大的隐患,有些虽然使用了环保的增塑剂,但是制备的密封胶性能一般。同时,有些食品包装、特别是一些玻璃瓶,在完成首次使用后,使用者会持续使用,但是在使用过程中瓶盖内会滋生细菌,同样带来了很大的安全隐患。
发明内容
针对现有技术中存在的问题,本发明提供一种安全、无毒、性能优异且具有抗菌性能的高分子材料。
本发明的技术方案如下:
一种高分子材料,由以下组分按照重量分数组成:
聚氯乙烯糊树脂(聚合度1000)99-120份、增塑剂体系77-99份,发泡剂体系2.1-3.3份,菜籽油6.5-8.5份;碳酸钙0-20份,甲壳素10-18份,纳米二氧化钛3.2-4.8份。
所述增塑剂体系是由乙酰柠檬酸三丁酯和环氧大豆油按照1.2:1的比例组成。
所述发泡剂体系为碳酸氢钠和可膨胀微球发泡剂按照1:2的比例组成。
一种如上所述的高分子材料的制备方法,具体步骤如下:
1)将增塑剂体系中的1/2的乙酰柠檬酸三丁酯、菜籽油和甲壳素在500转/分钟的条件下充分混合均匀;之后加入聚氯乙烯糊树脂,在1500转/分钟条件下充分混匀;
2)将剩余的乙酰柠檬酸三丁酯和环氧大豆油在600转/分钟的条件下混合均匀,之后,将碳酸钙和纳米二氧化钛依次加入,在3000转/分钟的条件下充分混匀;
3)将步骤1和2得到的原料混合到一起,在40℃、2500转/分钟的条件下充分混匀;
4)将步骤3)得到的混合物在真空条件下脱气。
所述的高分子材料用于制备食品瓶盖密封胶,具体的是将高分子材料在瓶盖内侧密封面上注胶,之后在250℃下加热成型。
可膨胀微球发泡剂:型号:F-77D日本松本油脂株式会社
本发明有益效果:本发明的密封胶原料采用完全无毒原料、未添加邻苯二甲酸酯类增塑剂、环氧类增塑剂,在保证了本发明具有优良的密封性前提下,大大提高了本发明的安全性能;本发明严格控制各原料及原料的用量,不但可以满足发泡倍率较高、泡孔密度均匀的效果,而且制备的密封胶软硬度合适、密封效果好;原料中添加了菜籽油的加入,可以使材料更加润滑,同时,菜籽油为天然原料,安全卫生;碳酸氢钠和可膨胀微球发泡剂按比例复配,相互配合,发泡效果优异;乙酰柠檬酸三丁酯和环氧大豆油按比例复配使用,大大提高了密封胶表面质量;甲壳素和纳米二氧化钛的使用,在不破坏密封胶硬度和密封效果的前提下,大大提高了密封胶的抗菌性能。
本发明原料相互配合,制备的密封胶无论从表观、理化指标还是性能指标,都达到了优异的效果。同时,因为本发明中添加了甲壳素和纳米氧化钛等非常用的原料,因此在制备方法中严格限定了原料的添加顺序和添加量,使制备的密封胶性能优异。
具体实施方式
以下实施例用于说明本发明,但不用来限制本发明的范围。在不背离本发明精神和实质的情况下,对本发明方法、步骤或条件所作的修改或替换,均属于本发明的保护范围。
若未特别指明,实施例中所用的技术手段为本领域技术人员所熟知的常规手段。
按照表1中的原料制备高分子材料,制备方法为:
1)将增塑剂体系中的1/2的乙酰柠檬酸三丁酯、菜籽油和甲壳素在500转/分钟的条件下充分混合均匀;之后加入聚氯乙烯糊树脂,在1500转/分钟条件下充分混匀;
2)将剩余的乙酰柠檬酸三丁酯和环氧大豆油在600转/分钟的条件下混合均匀,之后,将碳酸钙和纳米二氧化钛依次加入,在3000转/分钟的条件下充分混匀;
3)将步骤1和2得到的原料混合到一起,在40℃、2500转/分钟的条件下充分混匀;
4)将步骤3)得到的混合物在真空条件下脱气。
5)使用时,将高分子材料在瓶盖内侧密封面上注胶,之后在250℃下加热成型。
表1原料配比表
从表1中可以看出,本发明实施例1-3的配比的原料制备的密封胶表面质量好。
将实施例1-3制备的密封胶进行理化指标和性能测试,测试结果如表2和表3所示,
表2理化指标:
蒸发残渣,mg/L 实施例1 实施例2 实施例3
20%乙醇(60℃,0.5h迁移量) 15 14 15
4%乙酸(60℃,0.5h迁移量) 14 12 16
正己烷(20℃,0.5h) 108 98 105
表3性能测试:
从表2和表3中可以看出,本发明实施例1-3制备的密封胶的迁移量低,同时,拉伸强度高、耐低温、耐油、耐老化,性能优异。
抗菌性能检测
以金黄色葡萄球菌(Staphylococcus aureus)ATCC 6538和大肠埃希氏菌(Escherichia coli)ATCC 25922为检测对象,对本发明实施例1-3制备的密封胶进行抗菌实验;抗霉菌实验以黑曲霉(Aspergillus niger)ATCC 6275、土曲霉(Aspergillus terreus)AS 3.3935、绳状青霉(Penicillium funicolosum)AS 3.3875为检测对象,具体方法按照:QB/T2591-2003A,结果如表4所示:
表4抗菌实验结果
由此可见,本发明制备的密封胶各原料相互配合,具有良好的抑菌效果,特别是实施例2制备的密封胶,达到了非常优异的抑菌效果。
上述实施方案为本发明最佳的实施方案,但本发明的实施方案并不受上述实施方案的限制,其他的任何不违背本发明原理的条件下,可以通过改变参数的形式所产生的实施例,都包含于本发明的保护范围之内。

Claims (7)

1.一种高分子材料,其特征在于,由以下组分按照重量分数组成:
聚氯乙烯糊树脂(聚合度1000)99-120份、增塑剂体系77-99份,发泡剂体系2.1-3.3份,菜籽油6.5- 8.5份;碳酸钙0-20份,甲壳素10-18份,纳米二氧化钛3.2-4.8份。
2.根据权利要求1所述的高分子材料,其特征在于,由以下组分按照重量分数组成:
聚氯乙烯糊树脂(聚合度1000)110份、增塑剂体系88份,发泡剂体系2.7份,菜籽油7份;碳酸钙5份,甲壳素14份,纳米二氧化钛4.0份。
3.根据权利要求1或2所述的高分子材料,其特征在于,所述增塑剂体系是由乙酰柠檬酸三丁酯和环氧大豆油按照1.2:1的比例组成。
4.根据权利要求1或2所述的高分子材料,其特征在于,所述发泡剂体系为碳酸氢钠和可膨胀微球发泡剂按照1:2的比例组成。
5.一种权利要求1-4任一项所述的高分子材料的制备方法,其特征在于,具体步骤如下:
1)将增塑剂体系中的1/2的乙酰柠檬酸三丁酯、菜籽油和甲壳素在500转/分钟的条件下充分混合均匀;之后加入聚氯乙烯糊树脂,在1500转/分钟条件下充分混匀;
2)将剩余的乙酰柠檬酸三丁酯和环氧大豆油在600转/分钟的条件下混合均匀,之后,将碳酸钙和纳米二氧化钛依次加入,在3000转/分钟的条件下充分混匀;
3)将步骤1和2得到的原料混合到一起,在40℃、2500转/分钟的条件下充分混匀;
4)将步骤3)得到的混合物在真空条件下脱气。
6.一种权利要求1-5任一项所述的高分子材料的用途,其特征在于,用于制备食品瓶盖密封胶。
7.根据权利要求6所述的用途,其特征在于,具体的是将高分子材料在瓶盖内侧密封面上注胶,之后在250℃下加热成型。
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Cited By (2)

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Publication number Priority date Publication date Assignee Title
CN108641632A (zh) * 2018-03-28 2018-10-12 江苏锦厚新材料科技有限公司 一种复合增塑剂及其制备方法和应用
CN108948403A (zh) * 2018-05-02 2018-12-07 广东远华新材料实业有限公司 一种聚氯乙烯发泡材料及其制备方法

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