Feasibility of alkali-activated mining waste foamed materials incorporating expanded granulated cork

IF 1.3 Q3 Earth and Planetary Sciences Mining Science Pub Date : 2017-01-01 DOI:10.5277/MSC172401
Imed Beghoura, João Castro-Gomes, H. Ihsan, N. Estrada
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引用次数: 6

Abstract

Different combinations of mining waste mud, grounded waste glass, Portland cement, metakaolin and expanded cork were mixed together with alkaline activators (sodium silicate and sodium hydroxide solution) and as well aluminum powder or hydrogen peroxide to produce foamed lightweight materials. The size of the mineral materials is under 500 μm and expanded cork particles size is between 2 to 4 mm. The expanded cork added to the mixes changed between 10 to 40% volume of total solids. The influence of expanded cork on compressive strength was investigated. Precursors and activators were mixed together to produce a homogeneous mixture, which was placed into a cubic mold (40 x 40 x 40 mm), and cured at a temperature of 60°C, for 24 hours. After curing process, samples without foaming agents achieved the maximum compressive strength of 14.7 and 19.5 MPa for 7 and 28 days respectively. The porosity was observed by the naked eye of large voids in range of 4 mm in size. Microstructure analyses were carried on by SEM. Samples made with aluminum powder showed higher volume increase about 358% compared with samples made with hydrogen peroxide that presented a 141% volume increase. This preliminary study shows the feasibility to produce new improved lightweight foamed alkali activated materials incorporating expanded cork with potential applications in artistic, architectural, and historical heritage restoration.
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碱活化矿用废泡沫材料含膨胀粒状软木的可行性
将矿用废泥、磨碎的废玻璃、硅酸盐水泥、偏高岭土和膨胀软木与碱性活化剂(水玻璃和氢氧化钠溶液)以及铝粉或过氧化氢混合,制成泡沫轻质材料。矿物材料粒径在500 μm以下,膨胀软木颗粒粒径在2 ~ 4mm之间。在混合物中加入膨胀软木后,总固体体积的变化幅度在10%到40%之间。研究了膨胀软木对其抗压强度的影响。将前驱体和活化剂混合在一起,形成均匀的混合物,将其放入立方体模具(40 x 40 x 40 mm)中,在60°C的温度下固化24小时。未添加发泡剂的试样在养护后7天和28天的最大抗压强度分别为14.7和19.5 MPa。裸眼观察到孔隙率为4mm左右的大孔洞。用SEM对其进行了微观结构分析。用铝粉制成的样品比用过氧化氢制成的样品体积增加了141%,体积增加了358%。这项初步研究表明,生产新型轻质泡沫碱活化材料的可行性,包括膨胀软木,在艺术、建筑和历史遗产修复方面具有潜在的应用前景。
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来源期刊
Mining Science
Mining Science MINING & MINERAL PROCESSING-
CiteScore
2.40
自引率
0.00%
发文量
0
审稿时长
24 weeks
期刊介绍: Mining Scince. Scientific Papers of the Department Geoengineering, Mining and Geology of the Wroclaw University of Technology. The journal publishes original papers on mining and geology, geo-engineering and the related issues. The journal is devoted to the following topics: fundamental research in mining, underground and open-cast mining technologies, blasting technology, design and construction of mines, geomechanics and geotechnical engineering, mine ventilation, fluid mechanics and its application in mining, mining machinery and condition monitoring, mineral processing, environmental protection and waste utilization. The journal also accepts papers concerns geoengineering which is a sciences covering mining construction, geotechnical engineering, GIS, and earth sciences.
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