H. ULUGÖL Et Al. , "Effects of self-healing on the microstructure, transport, and electrical properties of 100% construction- and demolition-waste-based geopolymer composites," CEMENT & CONCRETE COMPOSITES , vol.121, 2021
ULUGÖL, H. Et Al. 2021. Effects of self-healing on the microstructure, transport, and electrical properties of 100% construction- and demolition-waste-based geopolymer composites. CEMENT & CONCRETE COMPOSITES , vol.121 .
ULUGÖL, H., Gunal, M. F., YAMAN, İ. Ö., YILDIRIM, G., & ŞAHMARAN, M., (2021). Effects of self-healing on the microstructure, transport, and electrical properties of 100% construction- and demolition-waste-based geopolymer composites. CEMENT & CONCRETE COMPOSITES , vol.121.
ULUGÖL, HÜSEYİN Et Al. "Effects of self-healing on the microstructure, transport, and electrical properties of 100% construction- and demolition-waste-based geopolymer composites," CEMENT & CONCRETE COMPOSITES , vol.121, 2021
ULUGÖL, HÜSEYİN Et Al. "Effects of self-healing on the microstructure, transport, and electrical properties of 100% construction- and demolition-waste-based geopolymer composites." CEMENT & CONCRETE COMPOSITES , vol.121, 2021
ULUGÖL, H. Et Al. (2021) . "Effects of self-healing on the microstructure, transport, and electrical properties of 100% construction- and demolition-waste-based geopolymer composites." CEMENT & CONCRETE COMPOSITES , vol.121.
@article{article, author={HÜSEYİN ULUGÖL Et Al. }, title={Effects of self-healing on the microstructure, transport, and electrical properties of 100% construction- and demolition-waste-based geopolymer composites}, journal={CEMENT & CONCRETE COMPOSITES}, year=2021}