Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

    Comparative Study on Light Weight Concrete by using Light Expanded Clay Aggregate and Pumice Stone

    New search for: VarshaSri K.
    New search for: Vishnu Vardhan G.
    New search for: Swathi K.
    New search for: Prasanna D.
    New search for: Chandini R.
    New search for: Poojith G.
    New search for: Ramana Nayak R.

    In order to increase compressive strength while decreasing thickness and weight, lightweight concrete is crucial to the construction of concrete. By including clay and pumice into the composite, the study focuses on analyzing the qualities of the composite sample (M20) both when it is fresh and when it has hardened. Our unique mixes, which each have three cubes and three cylinders, are made to measure compressive and bending strength in addition to mix control. This study also looks into adding different mineral admixtures to the concrete mixture. The test results showed that across several trials, strength and weight loss improved concurrently. Thus, it can be said that lightweight aggregates have greater qualities than pumice stone and regular concrete, particularly lightweight expanded clay aggregate stone.

    Access

    Download

    Access

    Download

    Page navigation

    Document information
    Similar titles

    Export, share and cite

    Comparative Study on Light Weight Concrete by using Light Expanded Clay Aggregate and Pumice Stone

    New search for: VarshaSri K.
    New search for: Vishnu Vardhan G.
    New search for: Swathi K.
    New search for: Prasanna D.
    New search for: Chandini R.
    New search for: Poojith G.
    New search for: Ramana Nayak R.

    In order to increase compressive strength while decreasing thickness and weight, lightweight concrete is crucial to the construction of concrete. By including clay and pumice into the composite, the study focuses on analyzing the qualities of the composite sample (M20) both when it is fresh and when it has hardened. Our unique mixes, which each have three cubes and three cylinders, are made to measure compressive and bending strength in addition to mix control. This study also looks into adding different mineral admixtures to the concrete mixture. The test results showed that across several trials, strength and weight loss improved concurrently. Thus, it can be said that lightweight aggregates have greater qualities than pumice stone and regular concrete, particularly lightweight expanded clay aggregate stone.

    Access

    Download

    Comparative Study on Light Weight Concrete by using Light Expanded Clay Aggregate and Pumice Stone

    New search for: VarshaSri K.
    New search for: Vishnu Vardhan G.
    New search for: Swathi K.
    New search for: Prasanna D.
    New search for: Chandini R.
    New search for: Poojith G.
    New search for: Ramana Nayak R.

    In order to increase compressive strength while decreasing thickness and weight, lightweight concrete is crucial to the construction of concrete. By including clay and pumice into the composite, the study focuses on analyzing the qualities of the composite sample (M20) both when it is fresh and when it has hardened. Our unique mixes, which each have three cubes and three cylinders, are made to measure compressive and bending strength in addition to mix control. This study also looks into adding different mineral admixtures to the concrete mixture. The test results showed that across several trials, strength and weight loss improved concurrently. Thus, it can be said that lightweight aggregates have greater qualities than pumice stone and regular concrete, particularly lightweight expanded clay aggregate stone.

    Access

    Download

    Access

    Download

    Page navigation

    Document information
    Similar titles

    Export, share and cite

    Document information
    Title:

    Comparative Study on Light Weight Concrete by using Light Expanded Clay Aggregate and Pumice Stone

    Contributors:

    VarshaSri K. (author) / Vishnu Vardhan G. (author) / Swathi K. (author) / Prasanna D. (author) / Chandini R. (author) / Poojith G. (author) / Ramana Nayak R. (author)

    Published in:

    E3S Web of Conferences, Vol 591, p 09001 (2024)

    Publication date:

    2024

    ISSN:

    2267-1242

    DOI:

    https://doi.org/10.1051/e3sconf/202459109001

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    light weight concrete , natural aggregate , synthetic light weight aggregate , coarse aggregate , artificial aggregate , pumice stones , Environmental sciences , GE1-350

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

    Similar titles

    Light Weight Concrete Using Light Weight Expanded Clay Aggregate and Dry Saw Dust

    Mishra, Honey / Jena, Ankit | TIBKAT | 2021

    Light Weight Concrete Using Light Weight Expanded Clay Aggregate and Dry Saw Dust

    Mishra, Honey / Jena, Ankit | Springer Verlag | 2020

    Light-Weight Pumice Concrete

    Niederhoff, A. E. | ASCE | 2021

    Light weight insulating concrete based on natural pumice aggregate

    Elmaghraby, M.S. / Mekky, H.S. / Serry, M.A. | Tema Archive | 2012

    Certain Exploration on Light Weight Concrete by Using Pumice Aggregate

    Prema M / Nagamani S | BASE | 2022

    Free access
    Back to top