Compatibility of polyvinylidene chloride with mechanical recycling of polyolefins

IF 1.1 4区 材料科学 Q4 MATERIALS SCIENCE, COMPOSITES Progress in Rubber Plastics and Recycling Technology Pub Date : 2023-01-13 DOI:10.1177/14777606231152268
Domenico Ferrari, A. Sanguineti, Marco Mirenda, Yves Vanderveken
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引用次数: 3

Abstract

The exceptional low permeability to oxygen and water of PVDC and the retention of barrier properties to oxygen even in humid conditions explain its success for packaging in food industry as barrier layer in Polyolefins (PO) multilayer films, whose contribution to the reduction of food waste is largely recognized. Several chemical recycling technologies have emerged in the recent years that, together with methodologies based on separation of layers by the use of solvents, will strongly increase in a near future the extent of recycling of multilayer films, including the PVDC-containing ones. At the same time, it is generally accepted that for several years these technologies will be complemented by the now dominating mechanical recycling. A lack of detailed study in the literature and a general confusion between very different PVDC grades, with and without internal stabilization, led to the idea that the dehydrochlorination of PVDC would cause a low quality of the recyclate obtained by mechanical recycling of PO in presence of PVDC and a corrosion risk for the equipment. In this study, the effect of a stabilized PVDC grade developed for coextrusion, at concentration typical of real life PO mix for mechanical recycling and in suitable condition, has been investigated in a pilot scale extruder and corrosion tests were performed. In conclusion, quantities of PVDC to be found in PO streams for mechanical recycling are compatible with a PO recyclate of excellent characteristics, even at extrusion temperatures as high as 220°C, with no damage to the PO structure, with only minimum discoloration, that can be mitigated by relatively low quantities of additives of general use in PO extrusion, and with no risk of corrosion of the equipment.
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聚氯乙烯与聚烯烃机械回收的相容性
PVDC对氧气和水的渗透性非常低,即使在潮湿条件下也能保持对氧气的阻隔性,这解释了它在食品工业包装中作为聚烯烃(PO)多层薄膜中的阻隔层的成功,其对减少食物浪费的贡献在很大程度上得到了认可。近年来出现了几种化学回收技术,这些技术与基于使用溶剂分离层的方法一起,将在不久的将来大大增加多层薄膜的回收程度,包括含聚氯乙烯的薄膜。与此同时,人们普遍认为,在未来几年内,这些技术将由目前占主导地位的机械回收加以补充。由于文献中缺乏详细的研究,以及对具有和不具有内部稳定的非常不同的PVDC等级的普遍混淆,导致人们认为PVDC的脱氢氯化会导致机械回收存在PVDC的PO所获得的回收物质量低,并且对设备有腐蚀风险。在这项研究中,在一个中试规模的挤出机中研究了一种稳定的PVDC等级,在机械回收的实际生活PO混合物的典型浓度和合适的条件下,对共挤出的影响进行了研究,并进行了腐蚀试验。总之,在机械回收的PO流中发现的PVDC的数量与具有优异特性的PO回收相兼容,即使在高达220°C的挤出温度下,也不会损坏PO结构,只有最小的变色,可以通过相对少量的PO挤出中常用的添加剂来减轻变色,并且没有设备腐蚀的风险。
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来源期刊
Progress in Rubber Plastics and Recycling Technology
Progress in Rubber Plastics and Recycling Technology MATERIALS SCIENCE, COMPOSITES-POLYMER SCIENCE
CiteScore
4.40
自引率
7.70%
发文量
18
审稿时长
>12 weeks
期刊介绍: The journal aims to bridge the gap between research and development and the practical and commercial applications of polymers in a wide range of uses. Current developments and likely future trends are reviewed across key areas of the polymer industry, together with existing and potential opportunities for the innovative use of plastic and rubber products.
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