Cristiano Giuseppe Coviello, Armando La Scala, Maria Francesca Sabbà, Leonarda Carnimeo
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引用次数: 0
摘要
过去十年中,一个严重的问题占据了主导地位,这个问题现在影响着地球上所有的自然生态系统:难以处理的塑料和微塑料日益增多。缓解这一问题的策略之一是关闭其中一种塑料--聚对苯二甲酸乙二醇酯(PET)的生命周期,将其重新用于灰泥和混凝土等最常见的建筑材料中。将 PET 废弃物作为骨料再利用,还可以限制天然骨料生产过程中的二氧化碳排放量。本文分析了许多关于用废弃 PET 材料增强水泥基混合物特性的研究成果。许多研究人员已经证明,将 PET 用作砂浆和混凝土的增强材料可以提高不含 PET 的相应水泥基混合物的机械强度。这种树脂的抗拉强度高于混凝土的抗拉强度;因此,通过将这两种材料结合使用,可以获得整体抗拉强度更高的混合物,从而提高抗折强度并减少开裂。使用有效尺寸的 PET 纤维可以提高水泥基混合物的延展性和韧性。多项研究表明,PET 增强材料可降低密度,从而减少重量和结构荷载,而使用球形和更光滑的 PET 骨料则可提高可加工性。
On the Cementitious Mixtures Reinforced with Waste Polyethylene Terephthalate.
The last decade was dominated by a serious problem that now affects all the planet's natural ecosystems: the increasing growth of plastics and microplastics that are difficult to dispose of. One strategy to mitigate this problem is to close the life cycle of one of them-polyethylene terephthalate (PET)-by reusing it within the most common building materials, such as mortars and concretes. The reuse of PET waste as aggregates also allows us to limit the CO2 emissions released during the production of natural aggregates. This paper analyzes the outcomes of many studies carried out on the characteristics of cementitious mixtures reinforced with waste PET material. Many researchers have demonstrated how PET used as reinforcement of mortars and concretes can produce an increase in the mechanical strengths of the corresponding cementitious mixtures without PET. The tensile strength of this resin is higher than that of concrete; so, by combining the two materials it is possible to obtain a mixture with an overall higher tensile strength, resulting in increased flexural strength and reduced cracking. Using an effective size of PET fibers, it is possible to achieve an increase in the ductility and toughness of the cementitious mixture. Several studies reveal that PET reinforcement reduces the density with a consequent decrease in weight and structural loads, while the workability increases using spherical and smoother PET aggregates.
期刊介绍:
Materials (ISSN 1996-1944) is an open access journal of related scientific research and technology development. It publishes reviews, regular research papers (articles) and short communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Materials provides a forum for publishing papers which advance the in-depth understanding of the relationship between the structure, the properties or the functions of all kinds of materials. Chemical syntheses, chemical structures and mechanical, chemical, electronic, magnetic and optical properties and various applications will be considered.
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