2021-9-1 A STUDY ON PARTIAL REPLACEMENT OF CEMENT WITH replacement of natural sand by quarry sand and 1.5 % dosage of mixture. Split tensile strength of concrete, when cement is replaced with 40% of GGBS & 60% of quarry dust for maximum dosage of mixture.Flexural strength will be max, if 30% of cement by GGBS & 60% of quarry sand as constant replacement for fine aggregates.
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395 -0056 Volume: 04 Issue: 03 Mar -2017 irjet.net p-ISSN: 2395-0072 Study of Partial Replacement of the Cement by GGBS & RHA and Natural Sand by Quarry Sand in Concrete Snehal C. Mokashi #1, S. N. Daule #2 #1 M.E.Student,(Structural Engineering) Department of Civil Engineering, Dr.Vithalrao Vikhe Patil College
2017-2-15 Effect of Simultaneous Replacement of Cement with Ground Granulated Blast Furnace Slag (GGBS) and Sand with Quarry Dust in Concrete written by Kankatala Jagadeep, V. Siva Ramaraju, P. Raju published on 2017/02/15 download full article with reference data and citations
2019-7-1 An Experimental Study on Partial Replacement of Cement by Ggbs and Natural Sand by Quarry Sand in Concrete Chaithra H L1, Pramod K2, Dr. Chandrashekar A3 1PG Student, Dept of Civil Engineering, K V G College of Engineering, Sullia, India 2Assistant Professor, Dept of Civil Engineering, K V G College of Engineering, Sullia, India 3HOD, Dept. of Civil Engineering, K VG College of
2016-5-22 different percentages of GGBS with 100% natural sand and 50% quarry dust. Table 7 flexural strength of M20 concrete over different percentages of GGBS with natural sand and 50% quarry dust S.no % of GGBS 100% natural sand 50% quarry dust 1 20 3.64 3.48 2 30 3.84 3.54 3 40 3.59 3.42 4 50 3.45 3.19 5 60 3.89 3.62 Figure4 flexural strength o f
2015-9-22 The properties of GGBS are determined by conducting test in accordance with ASTM C 989 and their values are within the specified maximum limit. A. Fine Aggregate . Sand-Sand is essentially quartz whereas clay is made of many other chemically active minerals like kaolinite. Sand between 4.75mm (about 5mm) and 0.15mm in size
2016-11-5 An Experimental Study of Fibre Reinforced Geo Polymer Concrete using Fly ash, GGBS and Polypropylene Fibres with a Partial Replacement of Normal Sand by Quarry Dust written by Manjunatha M Katti, Bharath Kumar N, Brahmananda Goutham published on 2016/05/11 download full article with reference data and citations
2019-3-30 replacement of natural sand by quarry sand and 1.5 % dosage of mixture. Split tensile strength of concrete, when cement is replaced with 40% of GGBS & 60% of quarry dust for maximum dosage of mixture.Flexural strength will be max, if 30% of cement by GGBS & 60% of quarry sand as constant replacement for fine aggregates.
Request PDF On Feb 15, 2017, Kankatala Jagadeep and others published Effect of Simultaneous Replacement of Cement with Ground Granulated Blast Furnace
From the experimental results 50% of cement can be replaced with GGBS. 6. The percentage increase of compressive st rength of concrete is 11.06 a nd 17.6% at the age of 7 and 2 8 days. by
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395 -0056 Volume: 04 Issue: 03 Mar -2017 irjet.net p-ISSN: 2395-0072 Study of Partial Replacement of the Cement by GGBS & RHA and Natural Sand by Quarry Sand in Concrete Snehal C. Mokashi #1, S. N. Daule #2 #1 M.E.Student,(Structural Engineering) Department of Civil Engineering, Dr.Vithalrao Vikhe Patil College
Request PDF On Feb 15, 2017, Kankatala Jagadeep and others published Effect of Simultaneous Replacement of Cement with Ground Granulated Blast Furnace
2019-1-24 (GGBS) in cement concrete as a sand substitute, for reducing the environmental problems related to the fine aggregate mining and waste disposal of slag. The percentage of GGBS replacement is 0,5,10 and 15 % to natural sand for the standard w/c ratio
High performance concrete with GGBS and robo sand457 Кб. International Journal of Engineering Science and Technology Vol. 2(10), 2010, 5107-5113 HIGH PERFORMANCE CONCRETE WITH GGBS AND ROBO SAND VENU(2008) studied on the feasibility of the usage of quarry rock dust as hundred percent substitutes for natural sand in concrete.
Abstract Objective: This study mainly focused on use of quarry dust on replaced with river sand for making geopolymer bricks and paver blocks. Method: Investigations were done on usage of eco-friendly Geopolymer Concretes in lieu of OPC concrete for producing geopolymer bricks and paver blocks. Fly ash, GGBS, aggregates and pellet form of sodium hydroxide were mixed
2015-9-22 The properties of GGBS are determined by conducting test in accordance with ASTM C 989 and their values are within the specified maximum limit. A. Fine Aggregate . Sand-Sand is essentially quartz whereas clay is made of many other chemically active minerals like kaolinite. Sand between 4.75mm (about 5mm) and 0.15mm in size
2017-4-5 & RHA and Natural Sand by Quarry Sand In Concrete”, IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE), Volume 11, Issue 2 Ver. II (Mar- Apr. 2014), Pg. No. 69-77. [5] A.H.L.Swaroop, K.Venkateswararao, Prof P Kodandaramarao, ―“Durability Studies On Concrete With Fly Ash & GGBS”, International Journal of Engineering Research
From the experimental results 50% of cement can be replaced with GGBS. 6. The percentage increase of compressive st rength of concrete is 11.06 a nd 17.6% at the age of 7 and 2 8 days. by
furnace Slag (GGBS), Fly Ash (PFA), Silica Fumes (SILIC A) incorporates with 1 00% of Quarry. Dust (QD) as sand replacement. The usage of 100% QD with
2020-10-15 Table 3.1. Physical properties of quarry rock dust and natural sand Fine aggregate (Natural river sand): River sand having of 1813.33 kg/m3 odulus of 2.015 was used. The specific gravity was found to be 2.5. Table 3.2. Sieve analysis for sand Fine aggregate (Quarry stone dust): Quarry Stone dust used in the laboratory investigations was
Request PDF On Feb 15, 2017, Kankatala Jagadeep and others published Effect of Simultaneous Replacement of Cement with Ground Granulated Blast Furnace
2021-7-9 to replace the sand. Quarry dust the option to replace the sand. Thus, we have studied the replacement of cement with GGBS and sand with Quarry dust. Ground-granulated blast- (GGBS or GGBFS) is a obtained by quenching molten iron slag (a by-product of iron and steel making) from a blast furnace in water or steam, to
High performance concrete with GGBS and robo sand457 Кб. International Journal of Engineering Science and Technology Vol. 2(10), 2010, 5107-5113 HIGH PERFORMANCE CONCRETE WITH GGBS AND ROBO SAND VENU(2008) studied on the feasibility of the usage of quarry rock dust as hundred percent substitutes for natural sand in concrete.
2018-6-1 PDF The present evaluation focuses on optimal utilization of GGBS on M50 grade of concrete with various proportions mixes (0%, 10%, 20%, 30%, 40%) and
2017-4-5 & RHA and Natural Sand by Quarry Sand In Concrete”, IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE), Volume 11, Issue 2 Ver. II (Mar- Apr. 2014), Pg. No. 69-77. [5] A.H.L.Swaroop, K.Venkateswararao, Prof P Kodandaramarao, ―“Durability Studies On Concrete With Fly Ash & GGBS”, International Journal of Engineering Research
To Study the Partial Replacement of Cement by GGBS & RHA and Natural Sand by Quarry Sand In Concrete 1444740431-ggbs2.docx (Size: 529.26 KB / Downloads: 5) Abstract: Concrete is the most widely used construction material in civil engineering industry because of its
furnace Slag (GGBS), Fly Ash (PFA), Silica Fumes (SILIC A) incorporates with 1 00% of Quarry. Dust (QD) as sand replacement. The usage of 100% QD with
From the experimental results 50% of cement can be replaced with GGBS. 6. The percentage increase of compressive st rength of concrete is 11.06 a nd 17.6% at the age of 7 and 2 8 days. by
2019-2-4 Venu Malagavelli et. al. / International Journal of Engineering Science and Technology Vol. 2(10), 2010, 5107-5113 This paper presents the study of compressive strength and split tensile strength of M30 conventional concrete by replacing the 0 to 30% (5% increment) of sand with ROBO sand and 40 to 60% of cement with GGBS.
2020-10-15 Table 3.1. Physical properties of quarry rock dust and natural sand Fine aggregate (Natural river sand): River sand having of 1813.33 kg/m3 odulus of 2.015 was used. The specific gravity was found to be 2.5. Table 3.2. Sieve analysis for sand Fine aggregate (Quarry stone dust): Quarry Stone dust used in the laboratory investigations was