Effect of type of coarse aggregate on the strength properties and fracture energy of normal and high strength concrete

•Study the effect of different types of aggregates as the aggregate characteristics are site specific.•The effect of Anorthosite and Charnockite aggregates on the performance of concrete has been studied which was not made earlier.•Fracture energy of normal and high strength concrete are obtained.•R...

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Published inEngineering fracture mechanics Vol. 194; pp. 52 - 60
Main Authors Vishalakshi, K.P., Revathi, V., Sivamurthy Reddy, S.
Format Journal Article
LanguageEnglish
Published New York Elsevier Ltd 01.05.2018
Elsevier BV
Subjects
Aggregates
Anorthosite
Cement matrix
Charnockite
Compressive strength
Concrete
Cracks
Elasticity
Energy
Fracture energy
Fracture mechanics
Fracture toughness
Gneiss
Granite
High strength concretes
Limestone
Modulus of elasticity
Surface layers
Transition zone
Limestone
Charnockite
Transition zone
Anorthosite
Fracture energy
Cement matrix
Gneiss
Granite
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Abstract •Study the effect of different types of aggregates as the aggregate characteristics are site specific.•The effect of Anorthosite and Charnockite aggregates on the performance of concrete has been studied which was not made earlier.•Fracture energy of normal and high strength concrete are obtained.•Regression analysis is made to relate the compressive strength and fracture energy of concrete. An attempt has been made in the present work to study the effect of type of coarse aggregate on the strength properties and fracture energy of M30, M50 and M80 grade of concretes. The aggregate used in this study includes Grey Granite (GG), Anorthosite (AS) Charnockite (CK) Limestone, (LS) and Gneiss (GS). The result shows that the strength of concrete is greatly influenced by the aggregate types in high strength concrete. However, the aggregate has not impacted the Normal Strength Concrete as the strength is governed by the characteristics of interfacial transition zone, rather than aggregate. Among all aggregates, the Grey Granite aggregate has produced concrete with highest compressive strength followed by Anorthosite, Charnockite, Limestone and Gneiss indicating that the surface texture, structure and mineralogical composition played a dominant role. The similar trend was noticed even in fracture energy and modulus of elasticity of high strength concrete.
AbstractList An attempt has been made in the present work to study the effect of type of coarse aggregate on the strength properties and fracture energy of M30, M50 and M80 grade of concretes. The aggregate used in this study includes Grey Granite (GG), Anorthosite (AS) Charnockite (CK) Limestone, (LS) and Gneiss (GS). The result shows that the strength of concrete is greatly influenced by the aggregate types in high strength concrete. However, the aggregate has not impacted the Normal Strength Concrete as the strength is governed by the characteristics of interfacial transition zone, rather than aggregate. Among all aggregates, the Grey Granite aggregate has produced concrete with highest compressive strength followed by Anorthosite, Charnockite, Limestone and Gneiss indicating that the surface texture, structure and mineralogical composition played a dominant role. The similar trend was noticed even in fracture energy and modulus of elasticity of high strength concrete.
•Study the effect of different types of aggregates as the aggregate characteristics are site specific.•The effect of Anorthosite and Charnockite aggregates on the performance of concrete has been studied which was not made earlier.•Fracture energy of normal and high strength concrete are obtained.•Regression analysis is made to relate the compressive strength and fracture energy of concrete. An attempt has been made in the present work to study the effect of type of coarse aggregate on the strength properties and fracture energy of M30, M50 and M80 grade of concretes. The aggregate used in this study includes Grey Granite (GG), Anorthosite (AS) Charnockite (CK) Limestone, (LS) and Gneiss (GS). The result shows that the strength of concrete is greatly influenced by the aggregate types in high strength concrete. However, the aggregate has not impacted the Normal Strength Concrete as the strength is governed by the characteristics of interfacial transition zone, rather than aggregate. Among all aggregates, the Grey Granite aggregate has produced concrete with highest compressive strength followed by Anorthosite, Charnockite, Limestone and Gneiss indicating that the surface texture, structure and mineralogical composition played a dominant role. The similar trend was noticed even in fracture energy and modulus of elasticity of high strength concrete.
Author Sivamurthy Reddy, S.
Revathi, V.
Vishalakshi, K.P.
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  surname: Revathi
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  givenname: S.
  surname: Sivamurthy Reddy
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  organization: Dept. of Civil Engineering, GITAM University, Bengaluru Campus, India
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Keywords Limestone
Charnockite
Transition zone
Anorthosite
Fracture energy
Cement matrix
Gneiss
Granite
Language English
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SSID ssj0007680
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Snippet •Study the effect of different types of aggregates as the aggregate characteristics are site specific.•The effect of Anorthosite and Charnockite aggregates on...
An attempt has been made in the present work to study the effect of type of coarse aggregate on the strength properties and fracture energy of M30, M50 and M80...
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crossref
elsevier
SourceType Aggregation Database
Publisher
StartPage 52
SubjectTerms Aggregates
Anorthosite
Cement matrix
Charnockite
Compressive strength
Concrete
Cracks
Elasticity
Energy
Fracture energy
Fracture mechanics
Fracture toughness
Gneiss
Granite
High strength concretes
Limestone
Modulus of elasticity
Surface layers
Transition zone
Title Effect of type of coarse aggregate on the strength properties and fracture energy of normal and high strength concrete
URI https://dx.doi.org/10.1016/j.engfracmech.2018.02.029
https://www.proquest.com/docview/2068488126
Volume 194
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