Reliability of Reusing Gypsum Flat Board Grinded Waste as a Conventional Plaster Replacement for Buildings
Abstract
:1. Introduction
2. Materials and Methods
3. Results, Discussion, and Analysis
3.1. Testing Phyisical and Mechanical Properties
3.2. Performance Test
3.3. Observation of Morphology and Microstructure
4. Discussion on Circular Economy
5. Conclusions
Author Contributions
Funding
Institutional Review Board Statement
Informed Consent Statement
Data Availability Statement
Acknowledgments
Conflicts of Interest
References
- Ghisellini, P.; Cialani, C.; Ulgiati, S. A review on circular economy: The expected transition to a balanced interplay of environmental and economic systems. J. Clean. Prod. 2016, 114, 11–32. [Google Scholar] [CrossRef]
- Hossain, M.U.; Ng, S.T.; Antwi-Afari, P.; Amor, B. Circular economy and the construction industry: Existing trends, challenges and prospective framework for sustainable construction. Renew. Sust. Energ. Rev. 2020, 130, 109948. [Google Scholar] [CrossRef]
- Purnell, P.; Renzetti, A. Challenges and opportunities for recycling gypsum waste in construction: A comprehensive review. J. Clean. Prod. 2021, 300. [Google Scholar]
- Koçan, S.; Gómez-Camacho, C.E.; Martínez-Rocamora, A. An international review of waste management and recycling strategies in the construction industry. Waste Manag. Res. 2021, 39, 1012–1028. [Google Scholar]
- Yuan, H.; Huang, Z.; Xu, P. A framework for eco-efficiency of construction and demolition waste management. Waste Manag. 2022, 138, 153–163. [Google Scholar]
- NTC_4914; Norma Técnica Colombiana NTC 4914: Cementos. Especificaciones para el uso de yeso de estucado para fundido y para modelado. INCONTEC: Bogotá, Colombia, 2001.
- ASTM C230; Standard Specification for Flow Table for Use in Tests of Hydraulic Cement. ASTM International: West Conshohocken, PA, USA, 2023.
- NTC 111; Norma Técnica Colombiana NTC 111: Método para determinar la fluidez de morteros de cemento hidráulico. ICONTEC: Bogotá, Colombia, 2024.
- ASTM C471M; Standard Test Methods for Chemical Analysis of Gypsum and Gypsum Products (Metric). ASTM International: West Conshohocken, PA, USA, 2024.
- NTC 5227; Norma Técnica Colombiana NTC 5227: Yeso y productos de yeso. Métodos de ensayo químicos. ICONTEC: Bogotá, Colombia, 2021.
- ASTM C472; Standard Test Methods for Physical Testing of Gypsum, Gypsum Plasters and Gypsum Concrete. ASTM International: West Conshohocken, PA, USA, 2014.
- NTC 490; Norma Técnica Colombiana NTC 490: Yesos para construcción. Especificaciones físicas y mecánicas. ICONTEC: Bogotá, Colombia, 1971.
- ASTM C188-17; Standard Test Method for Density of Hydraulic Cement. ASTM International: West Conshohocken, PA, USA, 2023.
- NTC 221; Norma Técnica Colombiana NTC 221: Método de ensayo para determinar la densidad del cemento hidráulico. ICONTEC: Bogotá, Colombia, 2019.
- Kara, S. Gypsum board waste management in construction: A review. Waste Manag. 2022, 138, 210–224. [Google Scholar]
- Arroyo, R.; Horta, R.; Álvarez, G.; Pérez, N.; Aguilera, E. Reciclaje de residuos de placas de yeso laminado: Análisis de métodos y propuesta de proceso optimizado. Rev. Constr. 2019, 18, 107–122. [Google Scholar]
- López, M.; García, A.; Sánchez, J.; Martínez, P. Comparative study of wet and thermal recycling methods for gypsum board waste. J. Clean. Prod. 2021.
- Carvalho, M.A.; Calil Junior, C.; Savastano Junior, H.; Tubino, R.; Carvalho, M.T. Microstructure and mechanical properties of gypsum composites reinforced with recycled cellulose pulp. Mater. Res. 2008, 11, 391–397. [Google Scholar] [CrossRef]
- Cárdenas, H.E.; Arteaga, J.C.; Fernández-Gómez, J.A.; Solarte, N. Efecto de fibras de celulosa en las propiedades físicas y mecánicas de compuestos de yeso. Rev. Ing. Constr. 2015, 30, 284–294. [Google Scholar]
- Muniz-Villarreal, M.S.; Manzano-Ramírez, A.; Sampieri-Bulbarela, S.; Gasca-Tirado, J.R.; Reyes-Araiza, J.L. Influence of cellulose fibers on the hydration kinetics and mechanical properties of gypsum composites. Constr. Build. Mater. 2022, 315, 125710. [Google Scholar]
- Lewry, A.J.; Williamson, J. The setting of gypsum plaster. J. Mater. Sci. 1994, 29, 6085–6090. [Google Scholar] [CrossRef]
- Karni, J. Gypsum in construction: Origin and properties. Mater. Struct. 1995, 28, 92–100. [Google Scholar] [CrossRef]
- Pavlidou, E.; Economidou, A.; Papageorgiou, D.; Efthimiadou, E.; Bakolas, A. Modified gypsum-based plasters with enhanced workability: Effect of organic additives on hydration kinetics and mechanical properties. Constr. Build. Mater. 2016, 121, 530–539. [Google Scholar]
- Ashrapov, A.K.; Abdullaev, I.A.; Abdullaev, A.M.; Umarov, K.S. Effect of natural fibers on mechanical properties of gypsum composites. Constr. Build. Mater. 2020, 252, 119088. [Google Scholar]
- Stães, J.; Van Der Bergh, J.M.; Ascione, E.; Segers, S.; Vandewalle, L.; Van Balen, K. Influence of natural fibers on the mechanical properties of gypsum-based composites: A comprehensive review. Compos. Part B Eng. 2021, 215, 108790. [Google Scholar]
- EN 13279-1 (2008); Gypsum Binders and Gypsum Plasters—Part 1: Definitions and Requirements. European Committee for Standardization (CEN): Brussels, Belgium, 2008.
- Begliardo, H.F.; Sánchez, M.A.; Panigatti, M.C.; Garrappa, S.E. Recuperación de yeso a partir de placas de yeso laminado de desecho. Inf. Tecnol. 2013, 24, 53–62. [Google Scholar]
- Rincón, J.M.; Ocampo, M.A. Análisis colorimétrico de materiales de construcción mediante técnicas de imagen digital: Metodología y aplicaciones. Rev. Constr. 2017, 16, 104–114. [Google Scholar]
- Def-Lab-Geo-Imagen. Software de Análisis Digital de Imágenes para Geomateriales; Universidad Complutense de Madrid: Madrid, Spain, 2022. [Google Scholar]
- Rincón, J.M. Evaluación objetiva del color en materiales de construcción: Propuesta de un nuevo método basado en distancias euclidianas. Mater. Constr. 2016, 66, 30–89. [Google Scholar]
- Gómez, A.M.; Arciniegas, C.S. Gestión de residuos de placas de yeso laminado en la construcción: Oportunidades de reciclaje y reincorporación. Rev. Ing. Construcción 2017, 32, 105–120. [Google Scholar]
- López, M.; García, A.; Sánchez, J.; Martínez, P. Estudio comparativo de los métodos de reciclado húmedo y térmico de residuos de placas de yeso laminado. J. Clean. Prod. 2021, 278, 123948. [Google Scholar]
- SimaPro 8.3.0, Software de Análisis de Ciclo de Vida; PRé Sustainability: Amersfoort, The Netherlands, 2017.
- Government of the Republic of Colombia. Report on Construction Material Consumption and Waste in Colombia; Ministry of Environment and Sustainable Development: Bogotá, Colombia, 2019.
- Consejo Nacional de Política Económica y Social (CONPES). CONPES 3874: Política Nacional para la Gestión Integral de Residuos Sólidos; Departamento Nacional de Planeación, República de Colombia: Bogotá, Colombia, 2016. [Google Scholar]
Test | Characteristic | International Reference Standards/Colombia |
---|---|---|
Flow | Determination of water-to-gypsum ratio | ASTM C230/NTC 111 [7,8] |
Purity | Chemical analysis | ASTM C471M/NTC 5227 [9,10] |
Compressive strength | Compressive strength | ASTM C472/NA [11] |
Setting time | Setting time | ASTM C472/NTC 490 [12] |
Density | Density | ASTM C188/NTC 221 [13,14] |
Parameter | Standard Gypsum | Standard Recycled |
---|---|---|
Density (g/cm3) | 2.66 | 2.56 |
Organic matter (%) | 0 | 3.8 |
Optimal ratio A/Y | 0.5 | 0.7 |
Compressive strength (MPa) | 7.6 | 5.2 |
Tensile strength (MPa) | 1.67 | 0.5 |
Initial setting time (Min) | 3 | 150 |
Final setting time (Min) | 10 | >1000 |
Impact Category | Unit | Total |
---|---|---|
Global warming | Kg CO2. Eq/Kg | 0.072525277 |
Non-renewable energy | M J primaria/Kg | 1.372033271 |
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Puerto, J.D.; Uribe, S.; Ayala, L.; Padilla, A.; Rodriguez, A. Reliability of Reusing Gypsum Flat Board Grinded Waste as a Conventional Plaster Replacement for Buildings. Sustainability 2024, 16, 7889. https://doi.org/10.3390/su16187889
Puerto JD, Uribe S, Ayala L, Padilla A, Rodriguez A. Reliability of Reusing Gypsum Flat Board Grinded Waste as a Conventional Plaster Replacement for Buildings. Sustainability. 2024; 16(18):7889. https://doi.org/10.3390/su16187889
Chicago/Turabian StylePuerto, Julian David, Sandra Uribe, Luis Ayala, Alexander Padilla, and Alvaro Rodriguez. 2024. "Reliability of Reusing Gypsum Flat Board Grinded Waste as a Conventional Plaster Replacement for Buildings" Sustainability 16, no. 18: 7889. https://doi.org/10.3390/su16187889