POTENTIAL OF SMART MATERIALS FOR SUSTAINABLE ARCHITECTURE

In a world with growing concerns about global energy use and carbon emissions, energy efficient and sustainable building design becomes a necessity. The true material selection plays a key role for the sustainability. This study aims to understand the smart materials because for designing and buildi...

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Autor principal: Elif SÜYÜK MAKAKLI
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Publicado: Fırat University 2019
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Acceso en línea:https://doaj.org/article/697db1fc1bab48cb9e0eabc4efbfe60b
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spelling oai:doaj.org-article:697db1fc1bab48cb9e0eabc4efbfe60b2021-11-24T09:20:47ZPOTENTIAL OF SMART MATERIALS FOR SUSTAINABLE ARCHITECTURE2148-416310.9761/JASSS6910https://doaj.org/article/697db1fc1bab48cb9e0eabc4efbfe60b2019-08-01T00:00:00Zhttps://jasstudies.com/index.jsp?mod=tammetin&makaleadi=608116756_19-Yrd.%20Do%C3%A7.%20Dr.%20Elif%20S%C3%BCy%C3%BCk%20Makakl%C4%B1.pdf&key=28184https://doaj.org/toc/2148-4163In a world with growing concerns about global energy use and carbon emissions, energy efficient and sustainable building design becomes a necessity. The true material selection plays a key role for the sustainability. This study aims to understand the smart materials because for designing and building a sustainable future the impact of these materials are significant. Smart materials offer different and significant solutions for various architectural demands. They can be generally defined as the engineered materials that perform special tasks. These are the materials which have one or more properties that can be altered by external stimuli like temperature, moisture, electric field etc. Basic types of smart materials are normally used in conjunction with many other materials. With the conjunction of other materials; devices, components, assemblies and systems can be produced. Complex functions are needed for using these materials in design context and single materials cannot alone respond many demands. Their potential is already recognized by the architects and they will be inevitable elements for the future projects with enhanced properties. This study also aims to determine the potential of nanotechnology which has the potential to offer architecture an abundance of smart materials that will be precisely engineered to perform specific tasks and energy concious design.Elif SÜYÜK MAKAKLIFırat Universityarticlesmart materialsnanotechnologysustainable architectureSocial SciencesHSocial sciences (General)H1-99DEENFRTRJournal of Academic Social Science Studies , Vol 10, Iss 55, Pp 267-275 (2019)
institution DOAJ
collection DOAJ
language DE
EN
FR
TR
topic smart materials
nanotechnology
sustainable architecture
Social Sciences
H
Social sciences (General)
H1-99
spellingShingle smart materials
nanotechnology
sustainable architecture
Social Sciences
H
Social sciences (General)
H1-99
Elif SÜYÜK MAKAKLI
POTENTIAL OF SMART MATERIALS FOR SUSTAINABLE ARCHITECTURE
description In a world with growing concerns about global energy use and carbon emissions, energy efficient and sustainable building design becomes a necessity. The true material selection plays a key role for the sustainability. This study aims to understand the smart materials because for designing and building a sustainable future the impact of these materials are significant. Smart materials offer different and significant solutions for various architectural demands. They can be generally defined as the engineered materials that perform special tasks. These are the materials which have one or more properties that can be altered by external stimuli like temperature, moisture, electric field etc. Basic types of smart materials are normally used in conjunction with many other materials. With the conjunction of other materials; devices, components, assemblies and systems can be produced. Complex functions are needed for using these materials in design context and single materials cannot alone respond many demands. Their potential is already recognized by the architects and they will be inevitable elements for the future projects with enhanced properties. This study also aims to determine the potential of nanotechnology which has the potential to offer architecture an abundance of smart materials that will be precisely engineered to perform specific tasks and energy concious design.
format article
author Elif SÜYÜK MAKAKLI
author_facet Elif SÜYÜK MAKAKLI
author_sort Elif SÜYÜK MAKAKLI
title POTENTIAL OF SMART MATERIALS FOR SUSTAINABLE ARCHITECTURE
title_short POTENTIAL OF SMART MATERIALS FOR SUSTAINABLE ARCHITECTURE
title_full POTENTIAL OF SMART MATERIALS FOR SUSTAINABLE ARCHITECTURE
title_fullStr POTENTIAL OF SMART MATERIALS FOR SUSTAINABLE ARCHITECTURE
title_full_unstemmed POTENTIAL OF SMART MATERIALS FOR SUSTAINABLE ARCHITECTURE
title_sort potential of smart materials for sustainable architecture
publisher Fırat University
publishDate 2019
url https://doaj.org/article/697db1fc1bab48cb9e0eabc4efbfe60b
work_keys_str_mv AT elifsuyukmakakli potentialofsmartmaterialsforsustainablearchitecture
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