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Development of Green Cementitious Materials by Using the Abrasive Waterjet Garnet Wastes: Preliminary Studies

Authors :
Ion Aurel Perianu
Henriette Szilagyi
Vasilica Vasile
Aurelian Gruin
Claudiu Matei
Cornelia Baeră
Source :
Advanced Materials Research. 1164:87-96
Publication Year :
2021
Publisher :
Trans Tech Publications, Ltd., 2021.

Abstract

The constant need for recycling, waste prevention and general environmental protection represent the new directive approaches imposed by the geo-political, industrial and environmental context, at the regional, European and global level. Ensuring the environmental protection and reducing the natural resources consumption represent general purposes of the sustainable development and also considerations to implement the Circular Economy Model [1]. The present study is developed with respect to the previously mentioned principles: the waterjet cutting operations by the use of abrasive GARNETs for quality, speed and accuracy gain, are in continuous expansion, generating proportionally increasing wastes, which could be valorized by innovatively integrating them in advanced cementitious materials for the construction industry. The international research regarding the use of abrasive waterjet Garnet wastes as raw material for construction industry are at incipient stage and quite limited, but preliminary results are promising. Further studies are presently developed, considering the potential benefits and also the reduced toxicity degree of abrasive Garnet wastes. This paper offers a general overview concerning the recent studies performed in the topic of efficient use of abrasive Garnet wastes in different building materials. Supplementary, further research, both theoretical and experimental is considered, for developing green, advanced, high performance cement-based materials by using the abrasive waterjet Garnet wastes, mainly as fine grain addition or replacement in the composites.

Details

ISSN :
16628985
Volume :
1164
Database :
OpenAIRE
Journal :
Advanced Materials Research
Accession number :
edsair.doi...........c4e167699fb6509a6503c4dc7dd8fed5