A Value-Based Decision-Making Model for Selecting Sustainable Materials for Buildings

Nowadays, the earth faces problems and challenges from different circumstances due to the dramatic rise of urban modernization. The construction industry is the most contributor to climate change. Achieving sustainability in construction is complicated, but one of the most optimal strategies is sele...

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Main Authors: Ruslan, A.A.B., Al-Atesh, E.A., Rahmawati, Y., Utomo, C., Zawawi, N.A.W.A., Jahja, M., Raflis,, Elmansoury, A.
Format: Article
Institution: Universiti Teknologi Petronas
Record Id / ISBN-0: utp-eprints.29315 /
Published: Insight Society 2021
Online Access: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85122598213&doi=10.18517%2fijaseit.11.6.14411&partnerID=40&md5=be6e1373b74d01a128a85bb40be9b727
http://eprints.utp.edu.my/29315/
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spelling utp-eprints.293152022-03-25T01:33:52Z A Value-Based Decision-Making Model for Selecting Sustainable Materials for Buildings Ruslan, A.A.B. Al-Atesh, E.A. Rahmawati, Y. Utomo, C. Zawawi, N.A.W.A. Jahja, M. Raflis, Elmansoury, A. Nowadays, the earth faces problems and challenges from different circumstances due to the dramatic rise of urban modernization. The construction industry is the most contributor to climate change. Achieving sustainability in construction is complicated, but one of the most optimal strategies is selecting building materials with a lower carbon footprint. Therefore, this research aims to investigate the criteria for sustainable materials selection, rank and prioritize sustainable criteria, and developing value-based decision making. A mixed method was used to satisfy the objectives through an extensive literature review, surveys, and interviews with experts. The statistical descriptive was based on a scatter plot of mean and standard deviation, AHP judgment and Value-based decision-making using function over cost. There are two alternatives obtained in this study: Aluminum Composite Panel (ACP) and Stainless Steel. As a result, the suitable alternative for sustainable façade material is ACP based on value-based calculation. The tendency of choosing sustainable material depends on the stakeholders, owner of the building, designers, and others. The research is to show the way in selecting sustainable material by using value-based analysis. This study could expect to give feasibility and useful knowledge in solving problems and increase the use of sustainable materials in building construction. Future research may be conducted with different requirements for sustainable materials. AHP and Value-based analysis are structured technique that solves a complex problem easily using mathematics and psychology approach. © 2021. All Rights Reserved. Insight Society 2021 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85122598213&doi=10.18517%2fijaseit.11.6.14411&partnerID=40&md5=be6e1373b74d01a128a85bb40be9b727 Ruslan, A.A.B. and Al-Atesh, E.A. and Rahmawati, Y. and Utomo, C. and Zawawi, N.A.W.A. and Jahja, M. and Raflis, and Elmansoury, A. (2021) A Value-Based Decision-Making Model for Selecting Sustainable Materials for Buildings. International Journal on Advanced Science, Engineering and Information Technology, 11 (6). pp. 2279-2286. http://eprints.utp.edu.my/29315/
institution Universiti Teknologi Petronas
collection UTP Institutional Repository
description Nowadays, the earth faces problems and challenges from different circumstances due to the dramatic rise of urban modernization. The construction industry is the most contributor to climate change. Achieving sustainability in construction is complicated, but one of the most optimal strategies is selecting building materials with a lower carbon footprint. Therefore, this research aims to investigate the criteria for sustainable materials selection, rank and prioritize sustainable criteria, and developing value-based decision making. A mixed method was used to satisfy the objectives through an extensive literature review, surveys, and interviews with experts. The statistical descriptive was based on a scatter plot of mean and standard deviation, AHP judgment and Value-based decision-making using function over cost. There are two alternatives obtained in this study: Aluminum Composite Panel (ACP) and Stainless Steel. As a result, the suitable alternative for sustainable façade material is ACP based on value-based calculation. The tendency of choosing sustainable material depends on the stakeholders, owner of the building, designers, and others. The research is to show the way in selecting sustainable material by using value-based analysis. This study could expect to give feasibility and useful knowledge in solving problems and increase the use of sustainable materials in building construction. Future research may be conducted with different requirements for sustainable materials. AHP and Value-based analysis are structured technique that solves a complex problem easily using mathematics and psychology approach. © 2021. All Rights Reserved.
format Article
author Ruslan, A.A.B.
Al-Atesh, E.A.
Rahmawati, Y.
Utomo, C.
Zawawi, N.A.W.A.
Jahja, M.
Raflis,
Elmansoury, A.
spellingShingle Ruslan, A.A.B.
Al-Atesh, E.A.
Rahmawati, Y.
Utomo, C.
Zawawi, N.A.W.A.
Jahja, M.
Raflis,
Elmansoury, A.
A Value-Based Decision-Making Model for Selecting Sustainable Materials for Buildings
author_sort Ruslan, A.A.B.
title A Value-Based Decision-Making Model for Selecting Sustainable Materials for Buildings
title_short A Value-Based Decision-Making Model for Selecting Sustainable Materials for Buildings
title_full A Value-Based Decision-Making Model for Selecting Sustainable Materials for Buildings
title_fullStr A Value-Based Decision-Making Model for Selecting Sustainable Materials for Buildings
title_full_unstemmed A Value-Based Decision-Making Model for Selecting Sustainable Materials for Buildings
title_sort value-based decision-making model for selecting sustainable materials for buildings
publisher Insight Society
publishDate 2021
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85122598213&doi=10.18517%2fijaseit.11.6.14411&partnerID=40&md5=be6e1373b74d01a128a85bb40be9b727
http://eprints.utp.edu.my/29315/
_version_ 1741197222314246144
score 11.62408

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