金属涂料工业聚酯(PE)废颗粒作为混凝土二次原料的可行性研究

Niccolò Aravecchia , Jorge Bañuls-Ciscar , Alessio Caverzan , Giacomo Ceccone , Estefania Cuenca , Liberato Ferrara , Konstantinos Grigoriadis , Paolo Negro , Mattia Rodriquens
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引用次数: 0

摘要

减少二氧化碳排放和塑料垃圾是现代社会正在处理的主要环境问题。混凝土行业正在不断投资于旨在生产可持续胶凝材料的研发。在过去的几十年里,人们对重新利用聚合物废料(主要是PET或PP)部分替代天然成分(骨料)或用作纤维增强材料的可能性产生了兴趣。事实上,由于聚合物的力学特性与天然骨料相比较差,最终的水泥基复合材料的力学性能降低。在上述框架下,本文报道的实验研究旨在验证一种能够使用精细聚合物颗粒的途径的可行性,特别是聚酯树脂(PE树脂),它是涂料行业的废物,作为沙子的部分替代品,在粘合剂颗粒的情况下,作为粘合剂颗粒的部分替代物,在类似于食品工业中用于容器消毒的伽马辐照过程中,它们作为水泥水化种子的有效性。首先,麻省理工学院的研究人员进行了一项研究(其中研究了PET废料颗粒暴露于伽马辐射下以提高其机械性能的方法),研究了不同伽马辐射剂量(10kGy或100kGy)对PE树脂颗粒的影响。然而,研究结果表明,即使在混合物中仅用5%体积的波特兰石灰石水泥(PLC)替代,该工艺也不会显著改善水泥基复合材料的力学性能。在第二阶段中,在由典型的自密实混凝土(SCC)混合料配制的砂浆混合料设计中,未辐照颗粒已被用作不同体积置换率(分别为10%和20%)的粘合剂和/或沙子的替代品。最后,一旦确定了最合适的更换类型和水平,作为性能保持和添加颗粒量之间的最佳折衷,就进行了混凝土配合比设计,并对相关性能进行了彻底测试。结果表明,机械性能的降低有限,PE树脂颗粒取代水泥的体积比例为20%,突出了在混凝土中重复使用经济可行数量的PE树脂的可能性,同时仍然能够将该材料用于结构应用。
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On the feasibility of using Polyester (PE) waste particles from metal coating industry as a secondary raw materials in concrete

Reduction of CO2 emissions and plastic waste are the main environmental problems that modern society is dealing with. Concrete industry is continuously investing in research and development aimed at producing sustainable cementitious materials. In the last decades, it has gained interest the possibility of reusing polymer waste (mainly PET or PP) in partial substitution of natural constituents (aggregates) or as fiber reinforcement. As a matter of fact, because of the poor mechanical characteristic of polymers compared to the one of natural aggregates, the final cementitious composite has reduced mechanical performance. In the aforesaid framework, the experimental research reported in this paper aims at verifying the feasibility of a pathway able to use fine polymer particles, in detail a Polyester resin (PE resin) which is a waste product of the coating industry, as a partial replacement of sand and, in case, of binder particles, upon a gamma irradiation process similar to the one used for the sanification of containers in food industry, also their effectiveness in performing as seeds of the cement hydration. Firstly, intrigued by a study performed by MIT researchers (in which exposure of PET waste particles to gamma irradiation has been investigated as a method to improve their mechanical performance), the influence of different gamma irradiation dosages (10 kGy or 100 kGy) on PE resin particles was investigated. However, results led to the conclusion that, even with a mere 5% by volume substitution of Portland Limestone Cement (PLC) in the mix, the process does not significantly improve the mechanical performance of cement-based composites. In a second stage, the non-irradiated particles have been employed as a replacement of the binder and/or of the sand at different volume replacement ratios (10% and 20% respectively) in mortar mix designs formulated from typical Self-Compacting Concrete (SCC) mixes. Finally, once identified the most suitable type and level of replacement as the best compromise between performance maintenance and volume of added particles, the scaling up to the concrete mix-design has been performed and the related performance thoroughly tested. The results have provided limited reduction in mechanical properties, with a 20% by volume level of substitution of cement by PE resin particles, highlighting the possibility of reusing economically viable quantities of PE resins into concrete while still being able to use the material for structural application.

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