Investigation of gypsum composites with different lightweight fillers: A physico-mechanical characterisation regarding possibilities for building applications

Identificadores
ISSN: 23527102
DOI: 10.1016/j.jobe.2023.107813
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Autor
Álvarez Dorado, Manuel; Santos, Paulo; Ferrández Vega, Daniel
Fecha
2023
Materia/s

Prefabricados

Geomateriales

Yeso

Polímero

Lana mineral

Material compuesto

Vermiculita

Resistencia al fuego

Conductividad térmica

Absorción acústica

Materia/s Unesco

3312.08 Propiedades de Los Materiales

3312.12 Ensayo de Materiales

2304.03 Polímeros Compuestos

2211.02 Materiales Compuestos

2211.29 Propiedades Térmicas de Los Sólidos

3305.90 Transmisión de Calor en la Edificación

Resumen

This paper shows the characterization of a new lightened gypsum-based material for use in buildings. Super absorbent polymer (SAP) Potassium Polyacrylate has been used as main lightener leading to a 20% density reduction. In addition, tests have been carried out with the lightened plaster material reinforced with vermiculite (VER), recycled glass wool (RGW), expanded clay (EC). A significant improvement in physical properties was achieved. After material evaluation, a new precast design was elaborated and tested for its use in building. Physical-mechanical properties of these new material have been studied. A complementary ignitability test was also conducted to set this materials suitability for its use in building. All samples performed over standard minimum requirements. Samples containing RGW obtained best results in both, thermal conductivity, and acoustic absorption. © 2023 Elsevier Ltd

This paper shows the characterization of a new lightened gypsum-based material for use in buildings. Super absorbent polymer (SAP) Potassium Polyacrylate has been used as main lightener leading to a 20% density reduction. In addition, tests have been carried out with the lightened plaster material reinforced with vermiculite (VER), recycled glass wool (RGW), expanded clay (EC). A significant improvement in physical properties was achieved. After material evaluation, a new precast design was elaborated and tested for its use in building. Physical-mechanical properties of these new material have been studied. A complementary ignitability test was also conducted to set this materials suitability for its use in building. All samples performed over standard minimum requirements. Samples containing RGW obtained best results in both, thermal conductivity, and acoustic absorption. © 2023 Elsevier Ltd

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