المنتجات الساخنة
Effects of different industrial waste materials as partial
网页2021年3月1日Partial replacement of sand with quarry dust in concrete. Int. J. Innovative Technol. Explor. Eng. (2013) Eccentric compression tests and design of welded steel
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Utilization of treated saw dust in concrete as partial
网页2020年7月10日Journal of Cleaner Production. Volume 261, 10 July 2020, Microstructure of concrete mixtures made with water and sodium silicate treated saw
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Experimental Investigation in Concrete by Partial
网页3Anchal Jain, Nitin Thakur ; (2018)have found in their research a series of experiments performed to compare the use of glass powder and steel powder as partial
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Effects of Partial Replacement of Fine
网页2020年3月1日Natural river sand is one of the important constituent materials in concrete production while stone dust is a material obtained from crusher plants which is also sometimes being used either...
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Partial replacement of sand with marble waste and scoria
网页2020年11月2日The partial replacement of sand with marble waste and scoria can save the cost of concrete up to 4.5% when compared to the control mix. According to the cost
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Introduction to Quarry-Dust as Partial Replacement
网页2020年5月19日Sudhir S. Kapgate and S. R. Satone,Effect of quarry dust as partial replacement of sand in concrete Indian streams research journal,vol.3(5), 2013, ISSN
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Partial Replacement of Sand with Sawdust in
网页2013年5月14日This study investigated the use of sawdust as partial replacement for fine aggregates in concrete production. Sawdust was used to replace fine aggregates from 0% to 50% in steps of 10%....
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STUDY THE EFFECT OF STONE DUST AS PARTIAL
网页The research has shown that partial replacement of fine aggregate by stone dust in M-50 mix concrete by 50% with addition of steel fibres increases the 7 day and 28 day
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AN EXPERIMENTAL STUDY ON CONCRETE AS A PARTIAL
网页(i) As a Partial Replacement of Fine aggregate by Stone It can be seen that 7days compressive strength of the Dust concrete increases by 11.25% at 30% stone dust with
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Partial Replacement of Sand by Quarry Dust in
网页International Journal of Scientific and Research Publications, Volume 5, Issue 7, July 2015 1 ISSN 2250- 3153 ijsrp Partial Replacement of Sand by Quarry Dust in
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Effects of different industrial waste materials as partial
网页2021年3月1日It was found that percentage replacement of the conventional sand with limestone waste did not affect the workability of the concrete. Conventional sand replacement up to 50% yield 12% increase in compressive strength at 28 days. Similar behaviour was observed in flexural (increased up 15%) and tensile strength (17% increase).
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Experimental study on replacing sand by M−Sand and
网页2022年1月1日Globally, studies on the impacts of quarry dust on concrete have been done. Saifuddin et al. [14] examined the effect of partial sand and cement replacement on concrete compressive strength. Galetakis and Raka [15] investigated the effects of replacing sand with quarry dust (20, 30 and 40%) on the characteristics of fresh and hardened
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Experimental Investigation in Concrete by Partial
网页3Anchal Jain, Nitin Thakur ; (2018)have found in their research a series of experiments performed to compare the use of glass powder and steel powder as partial replacement of sand in different proportions. concrete mixes are modified by 10%, 15% and 20% and 25% of glass powder and steel powder in partial replacement of sand .Several concrete
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AN EXPERIMENTAL STUDY ON CONCRETE AS A
网页OF SAND WITH STONE DUST AND STEEL SCRAP Shankar Meena [1], Rashmi Sakalle [2] International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 05 Issue: 05 May-2018 irjet.net p-ISSN: 2395-0072 As a Partial Replacement of Fine aggregate by Stone Dust
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EXPERIMENTAL INVESTIGATION OF PARTIAL
网页It was reported that significant increase in compressive strength, modulus of rupture and split tensile strength when 40 percent of sand is replaced by Quarry Rock Dust in concrete with 1% steel powder. Keywords: Fine Aggregates; Natural River Sand; Quarry Dust; Concrete; Strength INTRODUCTION
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Experiment on Concrete with Partial Replacement
网页International Journal of Innovative Technology and Exploring Engineering (IJITEE) ISSN: 2278-3075, Volume-8, Issue- 6S4, April 2019 focused on partial replacement of river sand with alternatives like copper slag, steel slag, quarry dust, etc., The outcome of these studies shows that the alternate materials enlarge the mechanical
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Investigating the sustainability of concrete by replacing
网页2022年6月23日Experimental investigation on utilization of flyash and waste foundry sand as a partial replacing material in concrete. Use of brick dust and quarry dust as fine aggregate replacement in Self Compacting Concrete. Partial Replacement of Cement with Fly Ash and Silica Fume for Sustainable Construction.
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AN EXPERIMENTAL STUDY ON CONCRETE AS A PARTIAL
网页(i) As a Partial Replacement of Fine aggregate by Stone It can be seen that 7days compressive strength of the Dust concrete increases by 11.25% at 30% stone dust with fine aggregate. Compressive strength test is performed on 3 cubes of each batch mix for 7 days, 14 days28 days.
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Introduction to Quarry-Dust as Partial Replacement
网页2020年5月19日Sudhir S. Kapgate and S. R. Satone,Effect of quarry dust as partial replacement of sand in concrete Indian streams research journal,vol.3(5), 2013, ISSN 2230-7850. R Chandana Sukesh, Katakam Bala Krishna, P.Sri Lakshmi Sai Teja, S.Kanakambara Rao, Partial Replacement of Sand with Quarry Dust in Concrete.
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SELF COMPACTING CONCRETE WITH
网页2017年5月1日Study of self compacting concrete with partial replacement of sand by quarry dust July 2017 International Journal of Civil Engineering and Technology G. Karthikeyan Self-compacting...
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Utilization of marble dust powder in concrete
网页An experimental study was carried out to investigate the strength properties of concrete produced with waste marble dust (WMD) as partial replacement for cement. mix. Marble powder was used as partial replacement of sand and cement at 0, 25, 50, 75 and 100% by [6] and [7] with 10% fly ash, 10 %slag, 7.5% silica fume and 1% superplasticizer
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Modeling Tensile Strength of Concrete on Partial
网页Tensile strength of concrete were examined on its partial replacement of cement and sand using ground granulated blast furnace and quarry dust, the study examines its behaviour at different dimensions, this is to monitor the variation effect of these parameters on the growth rates of tensile to the optimum curing age, these includes non linear
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Experimental Analysis on Partial Replacement of Fine
网页2018年12月31日Sand was replaced by mass fractions of 0, 5, 10, 15, 20, 30 and 40% with granite dust. The study reflected that replacement of sand by granite dust up to 20% showed better strength than conventional concrete. The comparison study of bond strength with and without replacement of granite dust using different diameters of TMT bars was
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Ecological Footprint Assessment of Concrete: Partial
网页2023年5月4日DOI: 10.3390/su15097512 Corpus ID: 258544900; Ecological Footprint Assessment of Concrete: Partial Replacement of Cement by Water Treatment Sludge and Stone Dust @article{Ansari2023EcologicalFA, title={Ecological Footprint Assessment of Concrete: Partial Replacement of Cement by Water Treatment Sludge and Stone
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AN EXPERIMENTAL STUDY ON CONCRETE AS A
网页OF SAND WITH STONE DUST AND STEEL SCRAP Shankar Meena [1], Rashmi Sakalle [2] International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 05 Issue: 05 May-2018 irjet.net p-ISSN: 2395-0072 As a Partial Replacement of Fine aggregate by Stone Dust
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Experimental investigation on partial replacement of
网页2021年1月1日The partial replacement of M- sand by steel slag with 10%, 20% and 30% to find the optimum percentage of replacement. Using optimum percentage as constant, the Coarse Aggregate is replaced with certain percentage by E-Waste. Keywords Steel slag E-Waste Fine aggregate Compressive strength Mechanical properties 1. Introduction
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Experiment on Concrete with Partial Replacement
网页By considering the above facts, severe studies are focused on partial replacement of river sand with alternatives like copper slag, steel slag, quarry dust, etc., The outcome of these studies shows that the alternate materials enlarge
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Experimental study on replacing sand by M−Sand and
网页2022年1月1日Best results were obtained when 60% of sand is replaced with quarry dust. Many studies examined the effect of the partial replacement of fine aggregate with quarry dust and found that maximum compressive strength, tensile strength, and flexural strength were obtained at 50% of replacement.
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Introduction to Quarry-Dust as Partial Replacement
网页2020年5月19日According to researchers cement and sand can be replaced with quarry dust maximum upto 25 to 30%. To achieve cost effectiveness in construction, cement and sand should be replaced by more than 50% with quarry dust without affecting the concrete properties and experiments should be continued to achieve the same. REFRENCES:
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Investigating the sustainability of concrete by replacing
网页2022年6月23日Experimental investigation on utilization of flyash and waste foundry sand as a partial replacing material in concrete. Use of brick dust and quarry dust as fine aggregate replacement in Self Compacting Concrete. Partial Replacement of Cement with Fly Ash and Silica Fume for Sustainable Construction.
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Modeling Tensile Strength of Concrete on Partial
网页Tensile strength of concrete were examined on its partial replacement of cement and sand using ground granulated blast furnace and quarry dust, the study examines its behaviour at different dimensions, this is to monitor the variation effect of these parameters on the growth rates of tensile to the optimum curing age, these includes non linear
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Utilization of marble dust powder in concrete
网页An experimental study was carried out to investigate the strength properties of concrete produced with waste marble dust (WMD) as partial replacement for cement. mix. Marble powder was used as partial replacement of sand and cement at 0, 25, 50, 75 and 100% by [6] and [7] with 10% fly ash, 10 %slag, 7.5% silica fume and 1% superplasticizer
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Experimental Analysis on Partial Replacement of Fine
网页2018年12月31日Sand was replaced by mass fractions of 0, 5, 10, 15, 20, 30 and 40% with granite dust. The study reflected that replacement of sand by granite dust up to 20% showed better strength than conventional concrete. The comparison study of bond strength with and without replacement of granite dust using different diameters of TMT bars was
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Materials Free Full-Text Waste Foundry Sand in
网页The by-product of the foundry industry is waste foundry sand (WFS). The use of WFS in building materials will safeguard the ecosystem and environmental assets while also durable construction. The use of industrial waste in concrete offsets a shortage of environmental sources, solves the waste dumping trouble and provides another method of protecting
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Experimental Investigation Of Pertial Replacement
网页J.Patel, Jay H Patel, Kushagra T Rawal, International Journal for Innovative Research in ScienceTechnology Volume 1 Issue 7, “REVIEW PAPER ON PARTIAL REPLACEMENT OF CONCRETE INGREDIENTS” This stone deals with includes use of different waste material as a partial replacement of cement or fine aggregate or coarse aggregate.
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Experimental Investigation on Steel Fibre Reinforced
网页Marble Dust Powder is the industrial waste obtained from marble industries. By using Marble Dust Powder as a partial replacement of sand, the environmental impact will be reduced, and also the consumption of sand also get reduced. But using Marble dust powder in concrete will leads to lack of strength characteristics of concrete.
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Ecological Footprint Assessment of Concrete: Partial
网页2023年5月4日DOI: 10.3390/su15097512 Corpus ID: 258544900; Ecological Footprint Assessment of Concrete: Partial Replacement of Cement by Water Treatment Sludge and Stone Dust @article{Ansari2023EcologicalFA, title={Ecological Footprint Assessment of Concrete: Partial Replacement of Cement by Water Treatment Sludge and Stone
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COMPARATIVE PERFORMANCES OF BLOCKS
网页FUW Trends in ScienceTechnology Journal, ftstjournal e-ISSN: 24085162; p-ISSN: 20485170; April, 2023: Vol. 8 No. 1 pp. 314 318 314 COMPARATIVE PERFORMANCES OF BLOCKS PRODUCED FROM PARTIAL
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