Compressive strength of concrete made with electric arc furnace slag and recycled ground glass as replacement of coarse and fine aggregate

被引:0
作者
Andrea Rojas, Yasmin [1 ]
Vera Lopez, Enrique [2 ]
机构
[1] Grp Integr & Mat Evaluat GIEM, Boyaca, Colombia
[2] Univ Pedag & Tecnol Colombia, Boyaca, Colombia
来源
REVISTA INGENIERIA DE CONSTRUCCION | 2021年 / 36卷 / 03期
关键词
EAFS; concrete; compression strength; recycling glass; rigid pavement; POWDER;
D O I
暂无
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
Concrete is one of the most studied industrial products with the aim of improving its durability, strength, and workability, as well as developing innovative alternatives in its production to reduce the environmental footprint (Rivera, 2013). This research validates the use of industrial waste generated in the department of Boyaca Colombia, within the production of concrete for the construction of rigid pavements. The research followed several stages, beginning with the physical, chemical, and mechanical characterization of the materials and the design of the standard mixture following the ACI 211 methodology. Subsequently, the 25%, 50%, 75%, and 100% of the gravel was replaced by electric arc furnace slag (EAFS), and 20, 30 and 40% of the sand by the recycled ground glass (RGG). Finally, the compressive strength of the concrete mixtures was analyzed.
引用
收藏
页码:342 / 360
页数:19
相关论文
共 47 条
[21]   Performance analysis of coloured microsurfacing with electric arc furnace steel slag as an aggregate replacement: a laboratory evaluation [J].
Ziari, Hassan ;
Zalnezhad, Mahdi ;
Ziari, Mohammad Ali ;
Zalnezhad, Hossein .
INTERNATIONAL JOURNAL OF PAVEMENT ENGINEERING, 2023, 24 (02)
[22]   Sustainable Recycling of Electric Arc Furnace Steel Slag as Aggregate in Concrete: Effects on the Environmental and Technical Performance [J].
Diotti, Alessandra ;
Cominoli, Luca ;
Galvin, Adela Perez ;
Sorlini, Sabrina ;
Plizzari, Giovanni .
SUSTAINABILITY, 2021, 13 (02) :1-13
[23]   Durability of concrete incorporating non-ground blast furnace slag and bottom ash as fine aggregate [J].
Yuksel, Isa ;
Bilir, Turhan ;
Ozkan, Omer .
BUILDING AND ENVIRONMENT, 2007, 42 (07) :2651-2659
[24]   Wet and dry cured compressive strength of concrete containing ground granulated blast-furnace slag [J].
Atis, Cengiz Duran ;
Bilim, Cahit .
BUILDING AND ENVIRONMENT, 2007, 42 (08) :3060-3065
[25]   Predicting the compressive strength of ground granulated blast furnace slag concrete using artificial neural network [J].
Bilim, Cahit ;
Atis, Cengiz D. ;
Tanyildizi, Harun ;
Karahan, Okan .
ADVANCES IN ENGINEERING SOFTWARE, 2009, 40 (05) :334-340
[26]   The pH test technology suitable to evaluate content of hazardous electric arc furnace oxidizing slag in fine aggregate [J].
Xue, Jia-Chen ;
Wang, Wei -Chien ;
Chang, Kao-Hao ;
Hong, Shang-Feng ;
Wang, Her -Yung .
CONSTRUCTION AND BUILDING MATERIALS, 2024, 428
[27]   Effects of the mineralogical composition and particle size distribution of ladle furnace slag as a cement/fine aggregate replacement in concrete [J].
Araos, P. ;
Montano, T. ;
Valls, S. ;
Barra, M. ;
Aponte, D. .
MATERIALES DE CONSTRUCCION, 2022, 73 (349)
[28]   Utilization of Corn Cob Ash as Fine Aggregate and Ground Granulated Blast Furnace Slag as Cementitious Material in Concrete [J].
Bheel, Naraindas ;
Ali, Montasir Osman Ahmed ;
Liu, Yue ;
Tafsirojjaman, T. ;
Awoyera, Paul ;
Sor, Nadhim Hamah ;
Romero, Lenin Miguel Bendezu .
BUILDINGS, 2021, 11 (09)
[29]   Effect of crushed waste glass as partial replacement of natural fine aggregate on performance of high strength cement concrete [J].
Paktiawal, Ajmal ;
Alam, Mehtab .
ADVANCES IN MATERIALS RESEARCH-AN INTERNATIONAL JOURNAL, 2022, 11 (04) :251-277
[30]   Durability of high-performance self-compacted concrete using electric arc furnace slag aggregate and cupola slag powder [J].
Sosa, I ;
Thomas, C. ;
Polanco, J. A. ;
Setien, J. ;
Sainz-Aja, J. A. ;
Tamayo, P. .
CEMENT & CONCRETE COMPOSITES, 2022, 127
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