Recovery and restoration of glass fibers from end‐of‐life composite waste through pyrolysis and partial oxidation processes combined with hot alkaline surface treatments

IF 4.8 2区 材料科学 Q2 MATERIALS SCIENCE, COMPOSITES
A. Rafay, M. Irfan, S. R. Naqvi, M. A. Umer, M. A. Rehman, M. Saleem, M. S. Butt, A. U. Khan
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Abstract

Environmental hazards caused by the ever‐increasing end‐of‐life (EoL) glass fiber reinforced polymer (GFRPs) composite waste is of major concern for the sustainable development of the industry. Compared to land filling or incineration, pyrolysis is one of the most promising environmentally friendly methods of disposal of EoL GFRPs. Pyrolysis not only results in recovery of clean glass fibers but other valuable products, such as oils. However, long processing time at elevated temperature leads to aggravation of already existed surface flaws along with the structural changes. Therefore, thermal conditioning of glass fibers results in severe deterioration of the strength in recovered fibers and hence limiting the use of recovered fibers to low end‐products. In this study, a new strategy was adopted where instead of complete cleaning of the fibers at pyrolysis stage, the fibers were partially oxidized and the complete removal of char from the surface of glass was done during hot alkaline etching. This strategy was opted to enhance the quality of the required fibers while reducing the processing time. The results showed ~200% increase in strength of fibers after the combined treatment of pyrolysis and post etching compared to the just pyrolyzed samples with etching time of just 1 min.Highlights End‐of‐life panels of GFRPs were pyrolyzed under inert environment of Argon. Residual char was partially removed through post oxidation under flowing air. Hot alkaline etching resulted in complete removal of char and surface defects. Partial oxidation and short etching cycles resulted in improved strength of recovered glass fibers.

Abstract Image

通过热解和部分氧化工艺以及热碱性表面处理,从报废复合材料废料中回收和修复玻璃纤维
不断增加的报废玻璃纤维增强聚合物(GFRPs)复合材料废料对环境造成的危害是该行业可持续发展的主要问题。与填埋或焚烧相比,热解是处理报废玻璃纤维增强塑料最有前途的环保方法之一。热解不仅能回收干净的玻璃纤维,还能回收其他有价值的产品,如油。然而,在高温下长时间加工会导致已存在的表面缺陷加剧,同时结构也会发生变化。因此,玻璃纤维的热调节会导致回收纤维的强度严重下降,从而限制了回收纤维在低端产品中的使用。在这项研究中,我们采用了一种新的策略,即在热解阶段不对纤维进行完全清洁,而是对纤维进行部分氧化,并在热碱性蚀刻过程中完全去除玻璃表面的焦炭。选择这一策略是为了在缩短加工时间的同时提高所需纤维的质量。结果显示,热解和后蚀刻综合处理后的纤维强度比仅热解样品(蚀刻时间仅为 1 分钟)提高了约 200%。通过在流动空气中进行后氧化,残留的焦炭被部分清除。热碱性蚀刻可完全去除焦炭和表面缺陷。部分氧化和较短的蚀刻周期提高了回收玻璃纤维的强度。
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来源期刊
Polymer Composites
Polymer Composites 工程技术-材料科学:复合
CiteScore
7.50
自引率
32.70%
发文量
673
审稿时长
3.1 months
期刊介绍: Polymer Composites is the engineering and scientific journal serving the fields of reinforced plastics and polymer composites including research, production, processing, and applications. PC brings you the details of developments in this rapidly expanding area of technology long before they are commercial realities.
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