The environmental impact evaluation and testing of sustainable inorganic binders: A green alternative to ordinary Portland cement
Sustainable alternative constituents to cement are required to reduce its detrimental impact on the environment. This studymainly focuses on the alternative materials to cement which are all derived as by-products from steel/iron and MgO manufacturingindustry. These alternative materials have been p...
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Yildiz Technical University
2018-04-01
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| Series: | Journal of Sustainable Construction Materials and Technologies |
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| Online Access: | https://dergipark.org.tr/tr/pub/jscmt/issue/36685/418206 |
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doaj-813e686b220e46f1a769bb5303bc25192021-01-27T19:14:59ZengYildiz Technical UniversityJournal of Sustainable Construction Materials and Technologies2458-973X2018-04-013219121110.29187/jscmt.2018.26252The environmental impact evaluation and testing of sustainable inorganic binders: A green alternative to ordinary Portland cementBeste Cubukcuoglu0Department of Civil Engineering Faculty of Engineering and Architecture Bahcesehir Cyprus UniversitySustainable alternative constituents to cement are required to reduce its detrimental impact on the environment. This studymainly focuses on the alternative materials to cement which are all derived as by-products from steel/iron and MgO manufacturingindustry. These alternative materials have been popularised in the last few years for their effective usage in the environmentalapplications. Furnace steel slag, low grade MgO and pulverised fly ash are the materials proposed as cement replacement. Theresults of this study will be used to demonstrate the characteristics of alternative materials by means of both physical and chemical.https://dergipark.org.tr/tr/pub/jscmt/issue/36685/418206cementpulverised fuel ashmagnesium oxidesustainable construction materials |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Beste Cubukcuoglu |
| spellingShingle |
Beste Cubukcuoglu The environmental impact evaluation and testing of sustainable inorganic binders: A green alternative to ordinary Portland cement Journal of Sustainable Construction Materials and Technologies cement pulverised fuel ash magnesium oxide sustainable construction materials |
| author_facet |
Beste Cubukcuoglu |
| author_sort |
Beste Cubukcuoglu |
| title |
The environmental impact evaluation and testing of sustainable inorganic binders: A green alternative to ordinary Portland cement |
| title_short |
The environmental impact evaluation and testing of sustainable inorganic binders: A green alternative to ordinary Portland cement |
| title_full |
The environmental impact evaluation and testing of sustainable inorganic binders: A green alternative to ordinary Portland cement |
| title_fullStr |
The environmental impact evaluation and testing of sustainable inorganic binders: A green alternative to ordinary Portland cement |
| title_full_unstemmed |
The environmental impact evaluation and testing of sustainable inorganic binders: A green alternative to ordinary Portland cement |
| title_sort |
environmental impact evaluation and testing of sustainable inorganic binders: a green alternative to ordinary portland cement |
| publisher |
Yildiz Technical University |
| series |
Journal of Sustainable Construction Materials and Technologies |
| issn |
2458-973X |
| publishDate |
2018-04-01 |
| description |
Sustainable alternative constituents to cement are required to reduce its detrimental impact on the environment. This studymainly focuses on the alternative materials to cement which are all derived as by-products from steel/iron and MgO manufacturingindustry. These alternative materials have been popularised in the last few years for their effective usage in the environmentalapplications. Furnace steel slag, low grade MgO and pulverised fly ash are the materials proposed as cement replacement. Theresults of this study will be used to demonstrate the characteristics of alternative materials by means of both physical and chemical. |
| topic |
cement pulverised fuel ash magnesium oxide sustainable construction materials |
| url |
https://dergipark.org.tr/tr/pub/jscmt/issue/36685/418206 |
| work_keys_str_mv |
AT bestecubukcuoglu theenvironmentalimpactevaluationandtestingofsustainableinorganicbindersagreenalternativetoordinaryportlandcement AT bestecubukcuoglu environmentalimpactevaluationandtestingofsustainableinorganicbindersagreenalternativetoordinaryportlandcement |
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1724320464479715328 |