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  • A study for suitability of local quarry dust materials for

    A study for suitability of local quarry dust materials for

    A study for suitability of local quarry dust materials for replacement of aggregate in an ultra-high-performance geopolymer concrete ... different fine aggregate. Cement and Concrete Research , ...

  • EXPERIMENTAL INVESTIGATION ON FLYASH BASED

    EXPERIMENTAL INVESTIGATION ON FLYASH BASED

    This project investigates about using quarry dust as a fine aggregate replacement material, was tested as an alternative in geo-polymer concrete.

  • PDF A study for suitability of local quarry dust

    PDF A study for suitability of local quarry dust

    Sep 12, 2017 A novel ultra-high performance Geopolymer concrete UHPGC mix using an alkali activated ground granulated blast furnace slag GGBFS and silica fume binder with a local quarry dust aggregate

  • Strength studies on Geopolymer Concrete produced by

    Strength studies on Geopolymer Concrete produced by

    But the key pro of Geopolymer concrete utility is to recycle concrete waste and demolition waste are transformed into coarse aggregate, which reflects in the environment and economic benefits. The natural fine aggregate NFA is replaced by the residue quarry fines obtained from the crushed quarry rock often termed Quarry dust or Quarry stone dust QSD by proportions 0, 20, 40, 60, 80,

  • EFFECT OF FLY ASH AND QUARRY DUST AS A PARTIAL

    EFFECT OF FLY ASH AND QUARRY DUST AS A PARTIAL

    This research paper describes the study on high performance concrete while partially replace the fly ash and quarry dust as a cement and fine aggregate. These are replaced at the percentages of 0 ...

  • Introduction to QuarryDust as Partial Replacement

    Introduction to QuarryDust as Partial Replacement

    May 19, 2020 quarry dust as fine aggregate effect on compressive strength , durability and workability of concrete. The experimental study done by R Chandana Sukesh, Katakam Bala Krishna, P.Sri Lakshmi Sai Teja, S.Kanakambara Rao.6 in which replacement of the sand with quarry dust shows an improvement in the compressive strength of the concrete.

  • An Experimental Investigation on Properties of Concrete by

    An Experimental Investigation on Properties of Concrete by

    Ground Granulated Blast Furnace Slag is a by-product of Iron and Steel industry which is produced in large quantities as a solid waste.It is highly cementitious, Quarry Dust is used as a replacement of Natural Sand due to its scarcity. The replacement percentages of Cement with GGBS are 20 , 40 and 60 by weight and 25 , 50 , 75 and 100 of Quarry Dust are used as a replacement of Natural Sand.

  • PDF THE EFFECT OF QUARRY DUST WITH CEMENT BY

    PDF THE EFFECT OF QUARRY DUST WITH CEMENT BY

    Abdullah et al. 2018 conducted workability tests, flexural strength tests, and compressive strength tests on concrete samples with 100 quarry fines used for sand replacement in concrete. The ...

  • Replacement Of Coarse Aggregate In Concrete Civil Planets

    Replacement Of Coarse Aggregate In Concrete Civil Planets

    Quarry dust For Partial Replacement The bricks, tile amp other lightweight materials are made from the quarry dust. The chemical composition of quarry dust is mostly the same as granite rock. So the strength and durability of quarry dust are good to use in concrete.

  • STUDY OF PARTIAL REPLACEMENT OF FINE

    STUDY OF PARTIAL REPLACEMENT OF FINE

    of quarry dust up to 0 replacement of fine aggrega te. From 10 there is a decrease in split tensile strength. 3. The compressive strength increase mainly depends on the percentage of quarry dust because of its high p ozzolanic nature. 4. The workability of the concrete increase as the percentage of quarry dust is increased. 5.

  • Partial Replacement of Fine Aggregates with Quarry

    Partial Replacement of Fine Aggregates with Quarry

    Partial Replacement of Fine Aggregates with Quarry Dust and Marble Powder in Concrete N. Janakiram 1, P. Murahari Krishna 2 M.Tech student 1, Assistant Professor 2 Department of Civil Engineering PACE Institute of technology India ABSTRACT Quarry dust and Marble powder are the most used among such materials to replace river sand, which ...

  • MECHANICAL PROPERTIES OF FLY ASH AND GGBS

    MECHANICAL PROPERTIES OF FLY ASH AND GGBS

    GGBS on the mechanical properties of geopolymer concrete GPC at replacement level of FA50-GGBS50 and replacement of fine aggregate with slag, quarry dust, bottom ash at levels of SAND50-SLAG50, SAND50-QD50, SAND50-BA50 using sodium silicate Na2SiO3 and sodium hydroxide NaOH solutions as alkaline activator. The replacement of

  • Compressive strength study of Geopolymer Mortar using

    Compressive strength study of Geopolymer Mortar using

    One of the alternative is the use of quarry dust in replacement to sand as fine aggregate. Hence, in scheme of reducing the environmental hazards due to the ingredients of concrete production the present research deals with the study of compressive strength of geopolymer mortar which is a combination of GGBFS ampflyash in replacement of cement ...

  • IOP Conference Series Materials Science and

    IOP Conference Series Materials Science and

    quarry dust when compared to other recyclable material in concrete. Almost 10 economical saving for 40 replacement of quarry dust with fine aggregates in concrete paving blocks. 4. CONCLUSIONS 1. By results of specific gravity it was clear that ceramic dust, quarry dust, glass powder have somehow

  • Use of Quarry Fine as Partial Replacement of Concrete

    Use of Quarry Fine as Partial Replacement of Concrete

    Concrete with quarry dust as fine aggregate In a study in Thailand by Khamput 11 on the compressive strength of concrete using quarry dust as fine aggregate and mixing with admixture type E, it was found that with 70 quarry dust the concrete produced compared well with normal concrete. He recommended quarry dust for

  • Investigating Strength Properties of Geopolymer Concrete

    Investigating Strength Properties of Geopolymer Concrete

    May 01, 2017 To address the environmental constraints due to cement production and sand scarcity, strength properties of high-calcium fly ash CFA-based geopolymer concrete with quarry dust as fine aggregate is explored in this paper. River sand was replaced with quarry dust from 0 to 100 by mass.

  • Use of Quarry Fine as Partial Replacement of Concrete as a

    Use of Quarry Fine as Partial Replacement of Concrete as a

    Use of Quarry Fine as Partial Replacement of Concrete as a Replacement of Fine Aggregate in Concrete Evaluation of Workability and Compressive Strength

  • Introduction to QuarryDust as Partial Replacement

    Introduction to QuarryDust as Partial Replacement

    May 19, 2020 Quarry dust can be used as an admixture in concrete efficiently to lessen its impact on environment and human. It can also be used as partial replacement of cement in concrete. Cement can be replaced partially by quarry dust in percentage by

  • Geopolymer Concrete The Eco Friendly Alternate to Concrete

    Geopolymer Concrete The Eco Friendly Alternate to Concrete

    Geopolymer concrete is produced using Flyash, GGBS, Fine aggregate and coarse aggregate and Alkaline activator Solution. The two main constituents of geopolymer are 1 The source materials which are rich in Silicon Si and Aluminium Al such as Fly Ash,

  • IOP Conference Series Materials Science and

    IOP Conference Series Materials Science and

    Abstract The replacement of natural fine aggregate by using quarry dust leads to consumption of generated quarry dust, the requirement of land fill area can be reduced and solves the natural sand scarcity problem. The sand availability as a fine aggregate at low cost which needs the reason to search as a alternative material.

  • Strength Properties of Concrete with Partial

    Strength Properties of Concrete with Partial

    Results showed that up to 7.5 replacement of cement by quarry dust there was no reduction in compressive strength, splitting tensile strength and flexural strength. The experimental work was carried out with M sand confirming to zone II as fine aggregate in concrete. Test is also carried out

  • Compressivestrength study of geopolymer mortar using

    Compressivestrength study of geopolymer mortar using

    Nov 15, 2018 In the present research the effect of quarry rock dust is studied as the complete replacement with the amount of GGBFS for different alkaline fluid to binder ratios. Alkaline liquid to binder ratio considered in this study is 0.55, 0.5, 0.45 and 0.4. The variation of GGBS percentage in the binder is from 0 to 100 with 10 interval.

  • AN EXPERIMENTAL STUDY ON GEOPOLYMER

    AN EXPERIMENTAL STUDY ON GEOPOLYMER

    characteristics of geo-polymer concrete with saw dust as partial replacement for fine aggregate. The replacement levels adapted in this study were 10, 15, 20 respectively. Geo-polymer mixes with aqueous solution with molarity values 10,12,14,16 were adapted. Geo-polymer was cast using

  • Use of Quarry Fine as Partial Replacement of Concrete as a

    Use of Quarry Fine as Partial Replacement of Concrete as a

    Ilangovana et al., 12 studied the strength and durability properties of concrete containing quarry dust as fine aggregate and found that the compressive, flexural strength and durability studies of concrete made with quarry rock dust were nearly 10 more than the conventional concrete.

  • Utilization of Stone Dust as Fine Aggregate

    Utilization of Stone Dust as Fine Aggregate

    maximum strength was obtained at 60 replacement of fine aggregate with stone dust. The results shows strength of concrete increases within 5-12 percent up to 50 percent replacement of fine aggregate. And at 60 percent stone dust in concrete the maximum value of compressive strength is obtained which is 17

  • Effect of Quarry Dust on High Performance Concrete

    Effect of Quarry Dust on High Performance Concrete

    Quarry Dust as full replacement in concrete as possible with proper treatment of Quarry Dust before utilization. Quarry waste fine aggregate was used in presence of silica fume. The overall test results revealed that quarry waste fine aggregate can be utilized in concrete mixtures as

  • Behaviour of SelfCompacting Concrete at Various Levels of

    Behaviour of SelfCompacting Concrete at Various Levels of

    Aug 08, 2016 Mix design is done at replacement levels of 0 to 30 at an interval of 10 by keeping cementatious content constant as 500kgm3 and water content 200liters. The main objective of the research work is to determine the optimum percentage replacement of fine aggregate by pond ash and quarry dust in production of SCC.

  • Study on Mechanical Properties of Fly Ash and Metakaolin

    Study on Mechanical Properties of Fly Ash and Metakaolin

    From the above experimental results, it is proved that in Geopolymer concrete M-sand can be used as a partial or complete replacement of fine aggregate. 1 The result shows the Compressive Strength, Flexural Strength and Split Tensile Strength for Conventional concrete with River sand at the age of 28 days is 37.7 Nmm2, 4.04 Nmm2 and 2.30 Nmm2.

  • Behaviour of SelfCompacting Concrete at Various Levels of

    Behaviour of SelfCompacting Concrete at Various Levels of

    Behaviour of Self-Compacting Concrete at Various Levels of Replacement to Fine Aggregate by Pond Ash and Quarry Dust. Vivekanandareddi Patil, Rohan S Gurav. Self-compacting concrete has gained high demand in construction practices.

  • Partial Replacement of Sand by Quarry Dust in Concrete

    Partial Replacement of Sand by Quarry Dust in Concrete

    International Journal of Scientific and Research Publications, Volume 5, Issue 7, July 2015 1 ISSN 2250-3153 Partial Replacement of Sand by Quarry Dust in Concrete Sumit L. Chauhan, Raju A.Bondre Assistant Professor P. I. G. C. E. Nagpur Abstract- The paper describe the role of quarry dust In the of various complex silicates are formed, causing the mass to construction of buildings and other ...

  • Experimental Study on Concrete and Cement Plaster

    Experimental Study on Concrete and Cement Plaster

    cube for 3, 7 and 28days by replacing fine aggregate with Quarry Rock Dust. TableTo evaluate percentage of water absorption in plastering made with both Quarry Rock Dust and Natural sand. III. METHODOLOGY 1 Concrete specimens were casted using 0, 50, 75 and 100 of replacement fine aggregate with Quarry Rock Dust.

  • Partial replacement of Fine aggreggate by Copper Slag

    Partial replacement of Fine aggreggate by Copper Slag

    Jan 16, 2017 55 Replacement Of Fine Aggregate By Copper Slag And Cement By Fly Ash Ammini College Of Engineering, Mankara, Palakkad Codes and Standards IS 3831970 - Specification for coarse and fine aggregate from natural sources for concrete, Bureau of Indian Standards, New Delhi. IS 456-2000, Plain and Reinforced Concrete- Code of Practice, Bureau of ...

  • STUDY OF PARTIAL REPLACEMENT OF FINE

    STUDY OF PARTIAL REPLACEMENT OF FINE

    compressive strength and split tensile strength of concrete with quarry dust as a partial replacement of fine a ggregate, the following conclusion can be drawn 1. The compressive strength of concrete is i use of quarry dust up to 10 replacement of sand. F rom 10 there is decrease in compressive strength 2.

  • Effect of partial replacement of Sand with Quarry dust on

    Effect of partial replacement of Sand with Quarry dust on

    In the contemporary development of concrete technology, Geopolymer concrete plays an essential role especially in the production of precast structural components and brick blocks. It performes as an alternative material to the existing most expensive

  • Use of Quarry Fine as Partial Replacement of Concrete

    Use of Quarry Fine as Partial Replacement of Concrete

    combinations of lateritic sand and quarry dust as complete replacement for conventional river sand fine aggregate. Samples of concrete cube were made using varying contents of laterite and quarry dust as fine aggregate. The quantity of laterite was varied from

  • Experimental Study on Partial Replacement of Fine

    Experimental Study on Partial Replacement of Fine

    conventional concrete and replacement concrete quarry dust red soil was prepared by replacement of fine aggregate with for 20, 30, 40 and 50. The samples were categorized by age of the concrete at the day of testing, quarry dust and red soil content. For each mix, 3 cubes were tested for compressive