The pursuit of sustainable and innovative building materials has become paramount in the realm of civil engineering and construction. One such material, Lightweight Concrete (LC), incorporating fly ash and aluminum powder, has emerged as a promising solution. This study investigates the mechanical properties of LC specimens with varying concentrations of fly ash and aluminum powder, aiming to evaluate their suitability as a viable alternative to conventional concrete. Through comprehensive experimentation and analysis, the research elucidates the impact of fly ash and aluminum powder on the density, compressive strength, and tensile strength of LC. The findings contribute valuable insights into the optimization of LC formulations and underscore its potential as an environmentally friendly and versatile construction material.

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Material Characterization of Lightweight Concrete Using Fly Ash and Aluminium Powder

  • Prakhar Duggal,
  • Abuzar Ali,
  • Lhingnunthieng Lhungdim,
  • Aas Mohammad,
  • Ujjwal Bharadwaj

摘要

The pursuit of sustainable and innovative building materials has become paramount in the realm of civil engineering and construction. One such material, Lightweight Concrete (LC), incorporating fly ash and aluminum powder, has emerged as a promising solution. This study investigates the mechanical properties of LC specimens with varying concentrations of fly ash and aluminum powder, aiming to evaluate their suitability as a viable alternative to conventional concrete. Through comprehensive experimentation and analysis, the research elucidates the impact of fly ash and aluminum powder on the density, compressive strength, and tensile strength of LC. The findings contribute valuable insights into the optimization of LC formulations and underscore its potential as an environmentally friendly and versatile construction material.