Compressive strength and microstructural properties of lightweight high-strength cement mortar reinforced with eloxal

An investigation was carried out to evaluate the results of the compressive strength of high-strength lightweight eloxal reinforced cement mortar subject to short term loads. An experimental method similar to the one proposed by the author on chilled aluminum–quartz reinforced metal matrix composite...

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Published inMaterials in engineering Vol. 27; no. 8; pp. 657 - 664
Main Author Hemanth, Joel
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 2006
Subjects
Cement mortar
Composite
Compressive
Dispersoid
Eloxal
Cement mortar
Compressive
Composite
Dispersoid
Eloxal
Online AccessGet full text
ISSN0261-3069
DOI10.1016/j.matdes.2004.12.007

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Abstract An investigation was carried out to evaluate the results of the compressive strength of high-strength lightweight eloxal reinforced cement mortar subject to short term loads. An experimental method similar to the one proposed by the author on chilled aluminum–quartz reinforced metal matrix composite was used. Eloxal (in the solid slag form) is a waste obtained during the production of aluminum in the plant. It is mainly of aluminum oxide, SiO 2, CaO, MgO and other substances. It is a hard substance, having sufficient strength with additive properties and bonds very rapidly. Eloxal reinforced cement mortar in the present investigation are tested for its compressive and microstructural behavior. Data were obtained pertaining to compressive strength, role of moisture and drying effects. Deformation under compressive load were studied to provide insight into the internal behavior and failure mechanism of lightweight eloxal reinforced cement mortar. To analyze the mode of failure under compression, distribution of eloxal particles in cement mortar and the deformation behavior, several optical and scanning electron microscope photographs were taken to study the mechanism. Results of the tests of eloxal reinforced cement mortar are compared with unreinforced cement mortar and information obtained else where in earlier tests of normal weight cement mortar. Structural composite materials offer an excellent opportunity to produce components that achieve weight savings and improved properties. The eloxal particles (dispersoid) added to cement mortar in the present investigation is varied from 20 to 40 wt% in steps of 10 wt%. The resulting composite blocks cast were tested for their properties.
AbstractList An investigation was carried out to evaluate the results of the compressive strength of high-strength lightweight eloxal reinforced cement mortar subject to short term loads. An experimental method similar to the one proposed by the author on chilled aluminum-quartz reinforced metal matrix composite was used. Eloxal (in the solid slag form) is a waste obtained during the production of aluminum in the plant. It is mainly of aluminum oxide, SiO2, CaO, MgO and other substances. It is a hard substance, having sufficient strength with additive properties and bonds very rapidly. Eloxal reinforced cement mortar in the present investigation are tested for its compressive and microstructural behavior. Data were obtained pertaining to compressive strength, role of moisture and drying effects. Deformation under compressive load were studied to provide insight into the internal behavior and failure mechanism of lightweight eloxal reinforced cement mortar. To analyze the mode of failure under compression, distribution of eloxal particles in cement mortar and the deformation behavior, several optical and scanning electron microscope photographs were taken to study the mechanism. Results of the tests of eloxal reinforced cement mortar are compared with unreinforced cement mortar and information obtained else where in earlier tests of normal weight cement mortar. Structural composite materials offer an excellent opportunity to produce components that achieve weight savings and improved properties. The eloxal particles (dispersoid) added to cement mortar in the present investigation is varied from 20 to 40wt% in steps of 10wt%. The resulting composite blocks cast were tested for their properties.
An investigation was carried out to evaluate the results of the compressive strength of high-strength lightweight eloxal reinforced cement mortar subject to short term loads. An experimental method similar to the one proposed by the author on chilled aluminum–quartz reinforced metal matrix composite was used. Eloxal (in the solid slag form) is a waste obtained during the production of aluminum in the plant. It is mainly of aluminum oxide, SiO 2, CaO, MgO and other substances. It is a hard substance, having sufficient strength with additive properties and bonds very rapidly. Eloxal reinforced cement mortar in the present investigation are tested for its compressive and microstructural behavior. Data were obtained pertaining to compressive strength, role of moisture and drying effects. Deformation under compressive load were studied to provide insight into the internal behavior and failure mechanism of lightweight eloxal reinforced cement mortar. To analyze the mode of failure under compression, distribution of eloxal particles in cement mortar and the deformation behavior, several optical and scanning electron microscope photographs were taken to study the mechanism. Results of the tests of eloxal reinforced cement mortar are compared with unreinforced cement mortar and information obtained else where in earlier tests of normal weight cement mortar. Structural composite materials offer an excellent opportunity to produce components that achieve weight savings and improved properties. The eloxal particles (dispersoid) added to cement mortar in the present investigation is varied from 20 to 40 wt% in steps of 10 wt%. The resulting composite blocks cast were tested for their properties.
Author Hemanth, Joel
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10.1361/105994901770345141
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Keywords Cement mortar
Compressive
Composite
Dispersoid
Eloxal
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Snippet An investigation was carried out to evaluate the results of the compressive strength of high-strength lightweight eloxal reinforced cement mortar subject to...
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StartPage 657
SubjectTerms Cement mortar
Composite
Compressive
Dispersoid
Eloxal
Title Compressive strength and microstructural properties of lightweight high-strength cement mortar reinforced with eloxal
URI https://dx.doi.org/10.1016/j.matdes.2004.12.007
https://www.proquest.com/docview/28850162
https://www.proquest.com/docview/29231639
Volume 27
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