Sustainable valorization of mining waste: Phosphate sludge repurposing for advanced ceramic production

IF 2.9 Q1 MATERIALS SCIENCE, CERAMICS
Mohamed Amine Harech , Imane Anasser , Tariq Labbilta , Younes Abouliatim , Youssef El Hafiane , Lahbib Nibou , Agnès Smith , Mohamed Mesnaoui
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Abstract

Managing the vast quantities of waste constantly generated by mining activities is one of the major environmental and economic problems facing mankind today. Fluorapatite is separated from the associated gangue minerals by a series of crushing and screening, washing, and flotation processes. These processes produce a significant amount of phosphate sludge, which is stored on the mine site in drift rock and large surface ponds. One possible environmental option is to reuse it as an alternative raw material in ceramics and building materials. Consequently, two phosphate sludges from two different Moroccan towns, Youssoufia and Khouribga, were studied. Due to the complexity of these raw materials resulting from long geological processes, in-depth physical, chemical, mineralogical, and thermal characterization is required. Dry compressed powder pellets were sintered at 900 °C, 1000 °C, and 1100 °C for 2 h. The study focuses on the effect of sintering temperature on mineralogical transformations and ceramic properties such as apparent porosity, water absorption, and mechanical strength. At 1100 °C, a slight increase in density was observed for both phosphate sludges. Water absorption was reduced by 2.51 % in both sludges for pellets sintered at 1100 °C compared to those sintered at 900 °C. Mechanical strength improved significantly, with an increase of about 60 % for samples sintered at 1100 °C, recording 227 N for Youssoufia sludge and 247 N for Khouribga sludge. This work has provided new data on the physical, chemical, mineralogical, and thermal changes in ceramics as the sintering temperature increases. These data will be useful for the manufacture of high-value ceramics.

Abstract Image

采矿废料的可持续增值:磷酸盐污泥重新用于先进陶瓷生产
管理采矿活动不断产生的大量废物是当今人类面临的主要环境和经济问题之一。萤石是通过一系列的破碎、筛选、洗涤和浮选过程从相关的矸石矿物中分离出来的。这些过程会产生大量磷酸盐污泥,这些污泥被储存在矿区的漂流岩和大型地表池塘中。一个可行的环保方案是将其作为陶瓷和建筑材料的替代原料进行再利用。因此,我们对来自摩洛哥两个不同城镇(尤苏菲亚和胡里卜加)的两种磷酸盐污泥进行了研究。由于这些原材料的复杂性来自于漫长的地质过程,因此需要对其进行深入的物理、化学、矿物学和热学表征。研究重点是烧结温度对矿物学转变和陶瓷特性(如表观孔隙率、吸水性和机械强度)的影响。在 1100 °C 下,两种磷酸盐淤泥的密度都略有增加。与在 900 °C 下烧结的颗粒相比,在 1100 °C 下烧结的颗粒的吸水率降低了 2.51%。机械强度明显提高,在 1100 °C 下烧结的样品机械强度提高了约 60%,Youssoufia 淤泥的机械强度为 227 N,Khouribga 淤泥的机械强度为 247 N。这项工作提供了有关陶瓷在烧结温度升高时的物理、化学、矿物学和热变化的新数据。这些数据将有助于制造高价值陶瓷。
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来源期刊
Open Ceramics
Open Ceramics Materials Science-Materials Chemistry
CiteScore
4.20
自引率
0.00%
发文量
102
审稿时长
67 days
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