strength aprasial of artificial sand as fine aggregate in sfrc

Strength appraisal of artificial sand as fine aggregate in ...

Strength appraisal of artificial sand as fine aggregate in SFRC ... reinforced concrete with artificial sand as fine aggregate. Three matrices with compressive strength 20, 30 and 40 MPa were ...

STRENGTH APPRAISAL OF ARTIFICIAL SAND AS FINE AGGREGATE

@inproceedings{Chitlange2010STRENGTHAO, title={STRENGTH APPRAISAL OF ARTIFICIAL SAND AS FINE AGGREGATE IN SFRC}, author={M. R. Chitlange and P. Pajgade}, year={2010} } M. R. Chitlange, P. Pajgade Published 2010 The huge quantity of concrete is consumed by the construction industry all over the world ...

Strength appraisal of artificial sand as fine aggregate in ...

This paper presents the study of steel fiber reinforced concrete with artificial sand as fine aggregate. Three matrices with compressive strength 20, 30 and 40 MPa were designed and reinforced with crimpled steel fibers at dosage rate of volume fraction 0, 0.5, 1.0, 1.5 and 2.0 percent.

STRENGTH OF CONCRETE CONTAINING DIFFERENT TYPES OF

Quarry Rock Dust As Fine Aggregate", ARPN Journal of Engineer-ing and Applied Sciences, VOL. 3, NO. 5- ISSN 1819-6608 [3] Mahendra R. Chitlange and Prakash S. Pajgade, OCTOBER 2010,” Strength Appraisal Of Artificial Sand As Fine Aggregate In Sfrc”, ARPN Journal of Engineering and Applied Sciences-VOL. 5, NO. 10- ISSN 1819-6608

(PDF) Effect of Aggregate Types on Flexural Strength of ...

Mahendra R. Chitlange and Prakash S. Pajgade, “Strength appraisal 2) The use of artificial sand in construction industry helps of artificial sand as fine Aggregate in SFRC” ARPN Journal of Engineering and Applied Sciences volume 5, no.10,ISSN 1819-6608 ,October 2010. to prevent unnecessary damage to environment and provide v.

EFFECTS OF MANUFACTURED SAND ON COMPRESSIVE

Pajgade (2010), “Strength Appraisal of Artificial Sand as Fine Aggregate”, In SFRC Asian Research Publishing Network Journal of Engineering and Applied Sciences, Vol. 5, pp. 34-38. 2. Shanmugapriya T and Uma R N (2012), “Optimization of Partial Replacement of M-Sand By Natural Sand In High Performance Concrete With Silica

STUDY ON PERFORMANCE OF MANUFACTURED SAND AS

STUDY ON PERFORMANCE OF MANUFACTURED SAND AS FINE AGGREGATES IN HIGH STRENGTH CONCRETE CONSTRUCTIONS S.S.Saravanan#1, Dr.P.Jagadeesh2 #1 Research scholar, School of Civil Chemical Engineering, VIT University, India 1 [email protected] 2 Professor, School of Civil Chemical Engineering, VIT University, India 2 [email protected]

Optimum Replacement of Natural Sand with Artificial Sand ...

M. R. Chitlange in 2010 study shows that mixes with artificial sand as fine aggregate gives consistently higher strength than the mixes with natural sand. The sharp edges of the particles in artificial sand provide better bond with cement than the rounded particles of natural sand resulting in higher strength.

STRENGTH OF CONCRETE CONTAINING DIFFERENT TYPES

Quarry Rock Dust As Fine Aggregate", ARPN Journal of Engineer-ing and Applied Sciences, VOL. 3, NO. 5- ISSN 1819-6608 [3] Mahendra R. Chitlange and Prakash S. Pajgade, OCTOBER 2010,” Strength Appraisal Of Artificial Sand As Fine Aggregate In Sfrc”, ARPN Journal of Engineering and Applied Sciences-VOL. 5, NO. 10- ISSN 1819-6608

(PDF) Effect of Aggregate Types on Flexural Strength of ...

Mahendra R. Chitlange and Prakash S. Pajgade, “Strength appraisal 2) The use of artificial sand in construction industry helps of artificial sand as fine Aggregate in SFRC” ARPN Journal of Engineering and Applied Sciences volume 5, no.10,ISSN 1819-6608 ,October 2010. to prevent unnecessary damage to environment and provide v.

Mechanical and flexural behaviour study on fibrillated ...

Oct 23, 2020  The mechanical properties of fibre integrated concrete tested a cumulative strength increase of 1.143% in SFRC 3 compared to the control mix proportion in the compression test and 1.65% in the split tensile strength test. • Beyond 80%M- sand replacement in fine aggregate reduces the strength compared to the values obtained in SFRC3 Mix.

Civil Engineering Journals

Dec 16, 2020  Strength and workability of low lime fly ash based geopolymer concrete. Strength appraisal of artificial sand as fine aggregate in sfrc. Strength of concrete containing different types of fine aggregate. Substitution of quarry dust to sand for mortar in brick masonry works

Strength Characteristics of Quarry Dust in Replacement of Sand

Sep 07, 2017  Chitlange Mahendra R. and Pajgade Prakash S. 2010 Strength appraisal of artificial sand as fine aggregate in SFRC ARPN Journal of Engineering and Applied Sciences 5 34-38 October [10] Devi M. and Kannan K. 2011 Analysis of strength and corrosion resistance behavior of inhibitors in concrete containing quarry dust as fine aggregate ARPN Journal ...

Machine learning-based prediction for compressive and ...

Jan 10, 2021  The influence of the sand-to-aggregate (S/a) ratio on the strengths of SFRC has been considered as an important factor. Kim et al. discovered that as S/a ratio increases to 0.444, 0.515, and 0.615, respectively, the compressive strength of SFRC is also increased, such as 50.13, 52.62, and 54.10 MPa, respectively. In addition, as the S/a ratio ...

STRENGTH_OF_MATERIALS_2.pdf - STRENGTH OF MATERIALS

3 1.0 CONCRETE Concrete is a composite material composed of an ordinary Portland cement, fine aggregates (sand), coarse aggregates and a workable proportion of water. According to Anitha et al, (2013), it’s an artificial conglomerate stone made essentially of Portland cement, water, and aggregates. When first mixed the water and cement constitute a paste which

Investigation on Waste Plastic Fibre Reinforced Concrete ...

on concrete with stone crusher dust as fine aggregate” The Indian Concrete Journal,Vol.4, 2004, pp.45-50. [3] MahendraR.Chitlange and Prakash S.Pajgade “Strength appraisal of artificial sand as fine aggregate in SFRC” ARPN Journal of Engineering and Applied Science, Vol. 5, No.10, 2010, pp. 34-38.

M.R. Chitlange's research works Government Polytechnic ...

M.R. Chitlange's 7 research works with 50 citations and 1,028 reads, including: Steel fiber reinforced artificial sand concrete - Appraisal in earthquake resisting structures

COMPRESIVE STRENGTHS AND MODULUS OF ELASTICITY

Concrete is primarily consisting of Portland cement, aggregate (fine and coarse), and water. In general it's best to keep it simple, since more ingredients can make it more difficult to control. The cement and water form a paste that coats the aggregate and sand in the mix. The paste hardens and binds the aggregates and sand together.

Dust Effect on the Performance of ... - Scientific.Net

[6] Mahendra R. Chitlange and Prakash S. Pajgade, Strength Appraisal of Artificial Sand as Fine Aggregate in SFRC, ARPN Journal of Engineering and Applied Sciences, Vol. 5, No. 10, October 2010, pp.34-38.

(PDF) An Experimental study on Effects of Quarry Dust as ...

Test Quarry dust is a byproduct of the crushing process which result gives that compressive strength of mould with 35% is a concentrated material to use as aggregates for of sand and 3% of cement replacing dust increases to concreting purpose, especially as fine aggregates. the rock 21.33% and 22.76% in that order compared to the normal has ...

[PDF] Study on Compressive Strength of Quarry Dust as Fine ...

The concept of replacement of natural fine aggregate by quarry dust which is highlighted in the study could boost the consumption of quarry dust generated from quarries. By replacement of quarry dust, the requirement of land fill area can be reduced and can also solve the problem of natural sand scarcity. The availability of sand at low cost as a fine aggregate in concrete is

Prediction of Compressive Strength of Concrete Using ...

An effort has been made to develop concrete compressive strength prediction models with the help of two emerging data mining techniques, namely, Artificial Neural Networks (ANNs) and Genetic Programming (GP). The data for analysis and model development was collected at 28-, 56-, and 91-day curing periods through experiments conducted in the laboratory under

Mechanical and flexural behaviour study on fibrillated ...

Oct 23, 2020  The mechanical properties of fibre integrated concrete tested a cumulative strength increase of 1.143% in SFRC 3 compared to the control mix proportion in the compression test and 1.65% in the split tensile strength test. • Beyond 80%M- sand replacement in fine aggregate reduces the strength compared to the values obtained in SFRC3 Mix.

Civil Engineering Journals

Dec 16, 2020  Strength and workability of low lime fly ash based geopolymer concrete. Strength appraisal of artificial sand as fine aggregate in sfrc. Strength of concrete containing different types of fine aggregate. Substitution of quarry dust to sand for mortar in brick masonry works

Mechanical and fracture characteristics of Eco-friendly ...

Jan 30, 2016  Compressive strength of 27.4 ... Msand was used as fine aggregate for 100% replacement of river sand which has a specific gravity value of 2.54. ... Strength appraisal of artificial sand as fine aggregate in SFRC. J. Eng. Appl. Sci., 5 (10) (2010) Google Scholar.

Compressive Strength Testing of Steel Fiber Reinforced ...

Fine aggregates. River sand obtained from locally available source passing through 4.75mm IS sieve was used with fineness modulus of. 2.49 and specific gravity of 2.67. Coarse aggregates. Machine crushed well graded angular blue granite stone with. 12.5 mm maximum size was used.

STRENGTH_OF_MATERIALS_2.pdf - STRENGTH OF MATERIALS

3 1.0 CONCRETE Concrete is a composite material composed of an ordinary Portland cement, fine aggregates (sand), coarse aggregates and a workable proportion of water. According to Anitha et al, (2013), it’s an artificial conglomerate stone made essentially of Portland cement, water, and aggregates. When first mixed the water and cement constitute a paste which

Effect of Dust Deposition on the Performance of Multi ...

Chitlange, M., Pajgade, P, 2010 strength appraisal of artificial sand as fine aggregate in SFRC, ARPN Journal of Engineering and Applied Sciences, 5 :34-38. Kaldellis, J, Kokala, A. 2010 Quantifying the decrease of the photovoltaic panels’ energy yield due to phenomena of natural air pollution disposal, Energy, 35:4862-4869.

COMPRESIVE STRENGTHS AND MODULUS OF ELASTICITY

Concrete is primarily consisting of Portland cement, aggregate (fine and coarse), and water. In general it's best to keep it simple, since more ingredients can make it more difficult to control. The cement and water form a paste that coats the aggregate and sand in the mix. The paste hardens and binds the aggregates and sand together.

Vol. 4, Issue 9, September 2015 An Experimental Study on ...

compressive strength, flexural strength, Split tensile strength of steel fiber reinforced concrete (SFRC) containing fibers of 0%, 1%, 2% and 3% volume fraction of hook tain. Steel fibers of 50, 60 and 67 aspect ratio were used. A result data obtained has been analyzed and compared with a control specimen (0% fiber).

Experimental Study on Strength of Concrete by using

It is an artificial material in which the aggregates are bonded together by the cement when mixed with water. With the advancement of technology and increased field of application of concrete and mortars, the strength, workability, durability and other characteristics of the ordinary concrete can be made suitable for any situation.

Aggregates and Testing of Aggregates

aggregate will be discussed elsewhere under appropriate topics. In this chapter the properties of normal weight aggregates will only be discussed. Normal weight aggregates can be further classified as natural aggregates and artificial aggregates. Natural Artificial Sand, Gravel, Crushed Broken Brick, Rock such as Granite, Air-cooled Slag.

Using an Artificial Neural Network to Predict Mix ...

The inputs for the ANN were consistency class of SFRC, compressive strength of SFRC, maximum size of aggregate, steel fiber volume fraction, steel fiber length, and diameter. At the end of the study, a feed forward ANN model with six inputs and five outputs was successfully trained and used to produce the correct responses to testing data.

STRENGTH AND WORKABILITY OF CONCRETE WITH

robo sand, poabs sand, barmac sand, pozzolana sand, and artificial sand. The term manufactured sand is used for aggregate materials less than 4.75 mm. It is purpose made fine aggregate produced by crushing and screening or further processing i.e. washing, grading, classifying of quarried rock, cobbles,

Prediction of Compressive Strength of Concrete Using ...

An effort has been made to develop concrete compressive strength prediction models with the help of two emerging data mining techniques, namely, Artificial Neural Networks (ANNs) and Genetic Programming (GP). The data for analysis and model development was collected at 28-, 56-, and 91-day curing periods through experiments conducted in the laboratory under

FIBER REINFORCED CONCRETE - SlideShare

Dec 07, 2015  INTRODUCTION • Concrete is a construction material composed of cement as well as other Cementitious materials such as fly ash and slag content, aggregate (generally a coarse aggregate such as gravel, limestone, or granite, plus a fine aggregate such as river sand), water, and chemical admixtures.