Durability Aspects of Concretes that Contain Industrial Solid Wastes (Fly-ash and Fe-Ni slag)
Session
Food Science and Technology
Description
This work presents some physic-mechanical properties of a series of cement produced with fly ash (calcareous type) and slag (Fe-Ni) which are by-products of the industry in Republic of Kosovo. The influence of the amount of additives on physic-mechanical properties of cements produced by them has been studied. With the blended cements that were produced with the optimal by-product content, being about 15%, concrete samples have been produced. Compressive strength and pore size distribution using mercury porosimetry as well as and electrochemical (impressed voltage) tests have been carried out on steel reinforced concrete samples that were prepared respectively with fly ash and slag cements.
Keywords:
Blended cements, Industrial solid waste, Fly ash, slag (Fe-Ni), Concrete, Corrosion
Session Chair
Fidan Feka
Session Co-Chair
Suzana Aliu
Proceedings Editor
Edmond Hajrizi
ISBN
978-9951-437-69-1
Location
Pristina, Kosovo
Start Date
27-10-2018 10:45 AM
End Date
27-10-2018 12:15 PM
DOI
10.33107/ubt-ic.2018.166
Recommended Citation
Kastrati, Gani, "Durability Aspects of Concretes that Contain Industrial Solid Wastes (Fly-ash and Fe-Ni slag)" (2018). UBT International Conference. 166.
https://knowledgecenter.ubt-uni.net/conference/2018/all-events/166
Durability Aspects of Concretes that Contain Industrial Solid Wastes (Fly-ash and Fe-Ni slag)
Pristina, Kosovo
This work presents some physic-mechanical properties of a series of cement produced with fly ash (calcareous type) and slag (Fe-Ni) which are by-products of the industry in Republic of Kosovo. The influence of the amount of additives on physic-mechanical properties of cements produced by them has been studied. With the blended cements that were produced with the optimal by-product content, being about 15%, concrete samples have been produced. Compressive strength and pore size distribution using mercury porosimetry as well as and electrochemical (impressed voltage) tests have been carried out on steel reinforced concrete samples that were prepared respectively with fly ash and slag cements.