ceramic waste as coarse aggregates and quarry dust as fine aggregates

  • Strength of Concrete with Ceramic Waste and Quarry Dust as

    Experiment were carried out to determine the strength of concrete with ceramic waste coarse aggregate and quarry dust fine aggregate to compare them with the conventional concrete made (with crushed stone coarse aggregate) From the results show that compressive strength of concrete with quarry dust as aggregates is the highest with 3082 MPaConcrete with ceramic waste and quarry dust Fresh ceramic waste coarse aggregate and quarry dust fine aggregates concrete more less cohesive and workable than conventional concrete because high water absorption of ceramic waste and quarry dust aggregates However, the slump test result is still in designed range that is between 30 – 60 mmceramic waste as coarse aggregates and quarry dust as fineCeramic waste and quarry dust aggregates were used as a possible replacement for conventional crushed stone coarse and fine aggregates [1] Ashes from a wastewater treatment facility thatConcrete With Ceramic Waste And Quarry Dust Aggregates

  • Ceramic Waste As Coarse Aggregates And Quarry Dust As Fine

    fresh ceramic waste coarse aggregate an d quarry dust fine aggregates concrete more less cohesive and workable than conventional concrete because high water absorption of ceramic waste (abdullah et al, 2006) [10]Besides that, the compressive strength for ceramic coarse aggregate concrete varie d from 15 30 n/mm2 [11]Research completed byCeramic Waste As Coarse Aggregate And Quarry Dust As Fine Aggregate Dec 01 2018nbspThe materials used in this study were ordinary Portland cement CEM I 425 grade conforming to British Standards granite of maximum particle size of 125 mm and granulometric modulus of 695 river sand of maximum particle size of 4 mm and granulometric modulus of 224 ceramic waste coarse aggregatesCeramic Waste As Coarse Aggregate And Quarry Dust As FineThe w/c ratio was kept constant for all the replacement levels of fine aggregate with quarry dust and coarse aggregate with ceramic waste The assumption of consideration of constant w/c ratio helps for understanding the effect of strength parameters due to the change of natural aggregates 1 From the experiments conducted, replacement of ceramic waste as coarse aggregate in concrete can beExperimental study of coarse aggregates and fine

  • Strength of Concrete with Ceramic Waste and Quarry Dust as

    From the results show that compressive strength of concrete with quarry dust as aggregates is the highest with 3082 MPa with density 225185 kg/m 3 This show, ceramic waste and quarry dust canCeramic waste and quarry dust aggregates were used as a possible replacement for conventional crushed stone coarse and fine aggregates [1] Ashes from a wastewater treatment facility thatConcrete With Ceramic Waste And Quarry Dust AggregatesThis research focuses on a study of the strength of concrete with ceramic waste as coarse aggregate and quarry dust as fine aggregate The sources of ceramic waste and quarry dust are obtained from the industrial in Malaysia Presently, in ceramicsStrength of Concrete with Ceramic Waste and Quarry Dust as

  • Strength of Concrete with Ceramic Waste and Quarry Dust as

    From the results show that compressive strength of concrete with quarry dust as aggregates is the highest with 3082 MPa with density 225185 kg/m 3 This show, ceramic waste and quarry dust canExperiment were carried out to determine the strength of concrete with ceramic waste coarse aggregate and quarry dust fine aggregate to compare them with the conventional concrete made (with crushed stone coarse aggregate) From the results show that compressive strength of concrete with quarry dust as aggregates is the highest with 3082 MPaStrength of Concrete with Ceramic Waste and Quarry Dust asThe w/c ratio was kept constant for all the replacement levels of fine aggregate with quarry dust and coarse aggregate with ceramic waste The assumption of consideration of constant w/c ratio helps for understanding the effect of strength parameters due to the change of natural aggregates 1 From the experiments conducted, replacement of ceramic waste as coarse aggregate in concrete can beExperimental study of coarse aggregates and fine

  • Concrete with ceramic waste and quarry dust aggregates

    Fresh ceramic waste coarse aggregate and quarry dust fine aggregates concrete more less cohesive and workable than conventional concrete because high water absorption of ceramic waste and quarry dust aggregates However, the slump test result is still in designed range that is between 30 – 60 mm The compressive strength for ceramic coarse aggregate concrete varied from 15 30 MPa whereas· · Concrete with Ceramic Waste and Quarry Dust Aggregates For this research focus on a study of the strength of concrete with ceramic waste as coarse aggregate and quarry dust as fine aggregate The source of ceramic waste and quarry dust from the industrial in Malaysia Nowadays in ceramics industries Read MoreCeramic Waste As Arse Aggregate And Quarry Dust As FineThe study concludes that the stone dust with 20 % of ceramic waste as a coarse aggregate can be used effectively as an alternative to natural sand for nominal concreting Keywords— Ceramic Waste, Stone Dust, Compressive Strength, Flexural Strength 1 Introduction For Past many years construction industry has been making some progress in the utilisation of waste materials in concrete Some ofInvestigation on ceramic waste and stone dust as aggregate

  • Replacement of stone Dust and Ceramic scrap as Aggregate

    Results show that with partial replacement of stone dust with 05% and 05% Ceramic waste coarse aggregate, flexural strength increased by 20, 48 and 40% at the age of 28 days as compared to referral concrete The compressive strengths of concrete using natural sand and quarry dust were measured in the laboratory Compressive strength was found to increase with ages for normal concrete 11Ceramic Waste As Coarse Aggregate And Quarry Dust As Fine Aggregate Dec 01 2018nbspThe materials used in this study were ordinary Portland cement CEM I 425 grade conforming to British Standards granite of maximum particle size of 125 mm and granulometric modulus of 695 river sand of maximum particle size of 4 mm and granulometric modulus of 224 ceramic wasteCeramic Waste As Coarse Aggregate And Quarry Dust As FineCeramic Waste As Coarse Aggregate And Quarry Dust As Fine Aggregate 35 quarry dust: quarry dust can be defined as residue, tailing or o ther nonvoluble waste material after the extraction and processing of rocks to form fine particles less tha n 475 mm this product can be used for asphalt, substitut e for sand, and filling around pipes quarry dust can be an economic alternative to theCeramic Waste As Coarse Aggregate And Quarry Dust As Fine

  • ceramic waste as coarse aggregate and quarry dust as fine

    Fresh ceramic waste coarse aggregate and quarry dust fine aggregates concrete more less cohesive and workable than conventional concrete because high water absorption of ceramic waste and quarry dust aggregates However, the slump test result is still in designed range that is between 30 – 60 mm The compressive strength for ceramic coarse aggregate concrete varied from 15 30 MPa whereas· The compressive strength for ceramic coarse aggregate concrete varied from 1530 MPa whereas for quarry dust fine aggregates concrete varied from 1230 MPa The test results revealed that the strength and properties of ceramics waste as coarse aggregate are within the range of the values of concretemaking aggregate and they are not significantly different from those of conventional concreteceramic waste as coarse aggregates and quarry dust as fineStrength of Concrete with Ceramic Waste and Quarry Experiment were carried out to determine the strength of concrete with ceramic waste coarse aggregate and quarry dust fine aggregate to compare them with the conventional concrete made (with crushed stone coarse aggregate) From the results show that compressive strength of concrete with quarry dust as aggregates is the highestceramic waste as coarse aggregate and quarry dust as fine

  • EXPERIMENTAL STUDY ON MECHANICAL PROPERTIES OF

    CONCRETE BY USING CERAMIC WASTE & QUARRY DUST AS PARTIAL REPLACEMENT OF COARSE AND FINE AGGREGATES K RAJA 1*, EBALA KOTESWARARAO 2*, DRVANJANEYA PRASAD 3* 1 MTech Student , Dept of CIVIL, Chintalapudi Engineering College,JNTUK,AP,INDIA 2 AsstProf, Dept of CIVIL, Chintalapudi Engineering College,JNTUK,AP,INDIA 3 Prof, Head Dept ofFresh ceramic waste coarse aggregate an d quarry dust fine aggregates concrete more less cohesive and workable than conventional concrete because high water absorption of ceramic waste (Abdullah et al, 2006) [10] Besides that, the compressive strength for ceramic coarse aggregate concrete varie d from 15 30 N/mm2 [11]ceramic waste as coarse aggregates and quarry dust as fine aCeramic Waste As Coarse Aggregates And Quarry Dust As Fine Aggregates IO Heavy Industry provides all kinds of crushing machines including stationary crusher and mobile crusher services Serviceoriented If you are interested in our IO company and our products, you are welcome to visit our company or our local office You can also call for consultation Our staff will wholeheartedly provideCeramic Waste As Coarse Aggregates And Quarry Dust As Fine

  • Replacement of stone Dust and Ceramic scrap as Aggregate

    Results show that with partial replacement of stone dust with 05% and 05% Ceramic waste coarse aggregate, flexural strength increased by 20, 48 and 40% at the age of 28 days as compared to referral concrete The compressive strengths of concrete using natural sand and quarry dust were measured in the laboratory Compressive strength was found to increase with ages for normal concrete 11quarry dust, which is a waste product from quarry, as fine aggregates in traditional concrete During the tenure of the study, some physical and engineering properties of quarry dust and sand were determined and compared The compressive strength of concrete was determined after replacing sand with quarry dust in various ratios The results of the study showed encouraging results forThe Utilization of Quarry Dust as Fine Aggregates in Concrete· Ceramic waste found suitable as a substitution for fine and coarse aggregate and partial substitution in cement production [2] Ceramic waste can be used as a filler material in flexible pavement [3]The ongoing research has interest in ceramic waste from different ceramic based industry which includes wall floor tiles, sanitary ware, bricks and roof tiles etc The waste generated from theePartial Replacement of Cement in Concrete using Ceramic Waste

  • Tags: coal mining tools