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Development of green building materials through alkali activation of industrial wastes and by-products

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dc.contributor.author Kioupis, D. en
dc.contributor.author Tsivilis, S. en
dc.contributor.author Kakali, G. en
dc.date.accessioned 2018-07-20T08:41:13Z
dc.date.available 2018-07-20T08:41:13Z
dc.date.issued 2018-07-20
dc.identifier.uri https://dspace.lib.ntua.gr/xmlui/handle/123456789/47362
dc.language.iso en en
dc.rights Default License
dc.subject Industrial wastes en
dc.subject by-products en
dc.subject Alkali activation en
dc.subject Experimental design en
dc.subject Taguchi en
dc.title Development of green building materials through alkali activation of industrial wastes and by-products en
heal.type conferenceItem
heal.classification construction materials en
heal.classification wastes en
heal.language el
heal.access free
heal.recordProvider ntua el
heal.publicationDate 2017
heal.bibliographicCitation Δ. Κιούπης, Σ. Τσιβιλής, Γ. Κακάλη, Σύνθεση και χαρακτηρισμός δομικών υλικών από απόβλητα τοιχοποιίας, 11ο Πανελλήνιο Συνέδριο Χημικής Μηχανικής, Θεσσαλονίκη, (2017), 1-8. el
heal.abstract The scope of the present study is to propose an effective methodology for the experimental design and development of geopolymeric products that can satisfy a wide range of end-user requirements. The methodology involves the application of a multifactorial experimental design model through the Taguchi approach. This approach allows the investigation of the combining effect of selected parameters in the response of the experimental system by conducting the minimum number of experiments and, therefore, significantly reduces the time and the cost of the whole process. Results showed that the use of various raw materials and additives, as well as the controlled variance of synthesis parameters and manufacturing conditions leads to production of geopolymers with a broad range of final properties. This approach was applied for the development of geopolymers with compressive strength, density and thermal conductivity in the range 2-55 MPa, 0.6-2.0 g/cm3 and 0.09-0.40 W/mK, respectively. en
heal.fullTextAvailability true
heal.conferenceName 11th Panhellenic Scientific Conference of Chemical Engineering en
heal.conferenceItemType full paper


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