CERAMIC WASTE REUSABILITY: EFFECT OF AGGREGATE GRAIN SIZE AND MIX RATIO ON LIGHTWEIGHT DENSE MASONRY UNIT PRODUCTION

A. Ajayi-Banji, D. A. Jenyo, Jubril Bello, M. A. Adegbile
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Abstract

Ceramic ware waste generation is becoming a global concern because of the increasing volume, hazardous nature, limited reusability, and poor waste management practices. This study examined the feasibility and efficacy of the inclusion of this waste as complementary aggregate in solid masonry unit production with bias interest on the compressive strength and water absorbability. Three particle sizes (1.4, 1.7, and 2.0 mm) of crushed ceramic ware waste were blended with natural fine aggregate under three different mix ratios (10, 20, and 30%) to produce the masonry units cured for 7, 14, 21, and 28 days prior to compressive tests analysis. Afterwards, some of the categories cured for 28-days were subjected to water absorption test. Morphology and elemental composition of the aggregates were also inspected using SEM-EDM machine. Also investigated were some of the aggregates’ physical properties. Results indicated that most of the waste-modified solid masonry units not only had water absorption capacity within required standard. The values were equally lower than the unmodified dense block (control) by 27 - 50%. Of the eighteen different categories produced, all M20T14, M20T21, and M30T28 modified dense masonry unit series with P1.7 (1.7 mm) and P2.0 (2.0 mm) particle sizes had high crushing force, compressive strength, and modulus range, which were 57 - 70 kN, 57 - 61 kN, 59 - 76 kN; 5.1 - 5.2 MPa, 5.1 - 5.5 MPa, 5.3 – 6.8 MPa; and 400 – 441 MPa, 411 – 419 MPa, 468 – 480 MPa respectively. Hence, modified masonry units with particle sizes P1.7 and P2.0 under the M20T14, M20T21, and M30T28 series are suitable masonry units for non-loading construction purposes. Interestingly, modified masonry unit (M30P2.0T7) cured under 7 days could also fit into this category. Hence, utilization of ceramic ware waste as co-aggregate in dense masonry units with M20 and M30 series production were established in this study for non-loading construction purposes
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陶瓷废弃物的再利用:骨料粒径和配合比对轻质致密砌块生产的影响
由于数量增加、危险性质、有限的可重复使用性和废物管理不善,陶瓷废物的产生正在成为全球关注的问题。本研究以抗压强度和吸水性为重点,考察了将这种废弃物作为补充骨料在砌体生产中的可行性和有效性。将三种粒径(1.4、1.7和2.0 mm)的破碎陶瓷废料与天然细骨料在三种不同的混合比例(10、20和30%)下混合,制成固化7、14、21和28天的砌体,然后进行压缩试验分析。然后对部分固化28 d的品种进行吸水试验。利用SEM-EDM机器对骨料的形貌和元素组成进行了检测。研究了聚集体的一些物理性质。结果表明,大部分废改性砌体不仅吸水能力在要求的标准范围内。与未修改的致密块(对照)相比,这些值同样低27 - 50%。在生产的18个不同品种中,粒径为P1.7 (1.7 mm)和P2.0 (2.0 mm)的M20T14、M20T21和M30T28改性致密砌体机组系列均具有较高的破碎力、抗压强度和模量范围,分别为57 ~ 70 kN、57 ~ 61 kN、59 ~ 76 kN;5.1 - 5.2 MPa, 5.1 - 5.5 MPa, 5.3 - 6.8 MPa;分别为400 ~ 441 MPa、411 ~ 419 MPa、468 ~ 480 MPa。因此,M20T14、M20T21、M30T28系列中粒径为P1.7、P2.0的改性砌体单元是适用于无荷载施工的砌体单元。有趣的是,改性砌体(M30P2.0T7)在7天内固化也可以属于这一类。因此,本研究建立了M20和M30系列生产的致密砌体单元中陶瓷废弃物作为共骨料的利用,用于无荷载施工
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来源期刊
Journal of Urban and Environmental Engineering
Journal of Urban and Environmental Engineering Social Sciences-Urban Studies
CiteScore
0.90
自引率
0.00%
发文量
0
审稿时长
24 weeks
期刊介绍: Journal of Urban and Environmental Engineering (JUEE) provides a forum for original papers and for the exchange of information and views on significant developments in urban and environmental engineering worldwide. The scope of the journal includes: (a) Water Resources and Waste Management [...] (b) Constructions and Environment[...] (c) Urban Design[...] (d) Transportation Engineering[...] The Editors welcome original papers, scientific notes and discussions, in English, in those and related topics. All papers submitted to the Journal are peer reviewed by an international panel of Associate Editors and other experts. Authors are encouraged to suggest potential referees with their submission. Authors will have to confirm that the work, or any part of it, has not been published before and is not presently being considered for publication elsewhere.
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