Experimental Investigation of Sustainable Concrete Made with Granite Industry By-Product

Abstract The granite processing industry, due to its sawing and polishing activities, is responsible for producing an enormous quantity of granite powder waste, herein referred to as granite indust...

[1]  K. Rajagopal,et al.  Longterm corrosion performance of rebar embedded in blended cement concrete under macro cell corrosion condition , 2008 .

[2]  R. R. Menezes,et al.  Use of granite sawing wastes in the production of ceramic bricks and tiles , 2005 .

[3]  Rachid Bennacer,et al.  Strength, durability, and micro-structural properties of concrete made with used-foundry sand (UFS) , 2011 .

[4]  R. D. Toledo Filho,et al.  Sustainability perspective of marble and granite residues as concrete fillers , 2013 .

[5]  C. Atiş,et al.  Relation between abrasion resistance and flexural strength of high volume fly ash concrete , 2002 .

[6]  José M.F. Ferreira,et al.  Development of ceramic floor tile compositions based on quartzite and granite sludges , 2007 .

[7]  Luis Sánchez,et al.  Use of granite sludge wastes for the production of coloured cement-based mortars , 2010 .

[8]  G. Ganesh Prabhu,et al.  Strength and durability properties of concrete made with granite industry waste , 2013 .

[9]  Abd Elmoaty M. Abd Elmoaty Mechanical properties and corrosion resistance of concrete modified with granite dust , 2013 .

[10]  Julio Appleton,et al.  Chloride penetration into concrete in marine environment—Part I: Main parameters affecting chloride penetration , 1999 .

[11]  C. T. Tam,et al.  The use of quarry dust for SCC applications , 2002 .

[12]  Waleed H. Khushefati,et al.  Granite Sludge Reuse in Mortar and Concrete , 2013 .

[13]  Iosr Journals,et al.  Cost Effectiveness of Replacing Sand with Crushed Granite Fine (CGF) In the Mixed Design of Concrete , 2013 .

[14]  Blessen Skariah Thomas,et al.  Performance of high strength rubberized concrete in aggressive environment , 2015 .

[15]  Rafat Siddique,et al.  Properties of concrete containing high volumes of coal bottom ash as fine aggregate , 2015 .

[16]  Jorge de Brito,et al.  Evaluation of the durability of concrete made with crushed glass aggregates , 2013 .

[17]  M. Raupach CHLORIDE-INDUCED MACROCELL CORROSION OF STEEL IN CONCRETE - THEORETICAL BACKGROUND AND PRACTICAL CONSEQUENCES , 1996 .

[18]  Rafat Siddique,et al.  Strength properties and micro-structural properties of concrete containing coal bottom ash as partial replacement of fine aggregate , 2014 .

[19]  Bhavna Tripathi,et al.  Strength and Abrasion Characteristics of ISF Slag Concrete , 2013 .

[20]  V. Baroghel-Bouny,et al.  AgNO3 spray tests: advantages, weaknesses, and various applications to quantify chloride ingress into concrete. Part 1: Non-steady-state diffusion tests and exposure to natural conditions , 2007 .

[21]  João Rio,et al.  Granitic quarry sludge waste in mortar: Effect on strength and durability , 2013 .

[22]  C. Poon,et al.  Influence of moisture states of natural and recycled aggregates on the slump and compressive strength of concrete , 2004 .

[23]  Yunhua Xu,et al.  Utilization of muscovite granite waste in the manufacture of ceramic tiles , 2011 .

[24]  A. Nazari,et al.  Splitting tensile strength of concrete using ground granulated blast furnace slag and SiO2 nanoparticles as binder , 2011 .

[25]  Laszlo J. Csetenyi,et al.  Sustainable use of marble slurry in concrete , 2015 .

[26]  S. Chaudhary,et al.  Performance based evaluation of ISF slag as a substitute of natural sand in concrete , 2016 .

[27]  Renato Vitaliani,et al.  Experimental investigation and numerical modeling of carbonation process in reinforced concrete structures Part I: Theoretical formulation , 2004 .