Production and characterization of artificial stone for coating with limestone waste laminated in polymeric matrix

Ambiente Construído Pub Date : 2022-12-01 DOI:10.1590/s1678-86212022000400625

Ana Karoliny Lemos Bezerra, L. A. Silva, Lucas Benício Rodrigues Araújo, A. Cabral

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引用次数: 1

Abstract

Abstract Exploiting laminated limestone from Cariri Ceará for ornamental and coating purposes has generated about 2.9 million tons of waste, which is discarded of improperly, making it important to search for alternatives to this material. Thus, this work aims to develop artificial stone for wall and floor coating, using laminated limestone waste (Cariri Stone) and a polyester resin. Initially, Cariri stone waste was characterised, and then artificial stone was made with 25% resin and 75% waste, by volume. Water absorption tests and resistance to compression, flexion, abrasion and hard body impact were performed on the composites produced. The results showed that the artificial stone presented water absorption about 5 times lower and abrasion resistance 448% higher than the natural stone, compressive and flexural strength 38.8% and 72.9% lower than the natural stone, respectively, and energy values equivalent to the commercial natural stone in the hard body impact test. It can be observed that the composite produced has a technical potential for use as a coating in civil construction, after adjusting the production process of the artificial stone.

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石灰石废层合涂料用人造石的制备及性能研究

从Cariri ceearar开采层状石灰石用于装饰和涂层目的已经产生了大约290万吨的废物，这些废物被不适当地丢弃，使得寻找这种材料的替代品变得重要。因此，这项工作旨在开发用于墙壁和地板涂层的人造石，使用层压石灰石废料(Cariri stone)和聚酯树脂。最初，对卡里里石废料进行了表征，然后用25%的树脂和75%的废料制成人造石。对所制备的复合材料进行了吸水性能测试、抗压缩、抗弯曲、抗磨损和抗硬体冲击性能测试。结果表明:人造石的吸水率比天然石低约5倍，耐磨性比天然石高448%，抗压强度和抗折强度分别比天然石低38.8%和72.9%，在硬体冲击试验中的能量值与商品天然石相当。由此可见，在调整人造石的生产工艺后，所生产的复合材料具有作为民用建筑涂料使用的技术潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Ambiente Construído

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