A. M. Lakew Et Al. , "Combined effect of using steel fibers and demolition waste aggregates on the performance of fly ash/slag based geopolymer concrete," European Journal of Environmental and Civil Engineering , vol.27, no.15, pp.4251-4278, 2023
Lakew, A. M. Et Al. 2023. Combined effect of using steel fibers and demolition waste aggregates on the performance of fly ash/slag based geopolymer concrete. European Journal of Environmental and Civil Engineering , vol.27, no.15 , 4251-4278.
Lakew, A. M., CANPOLAT, O., MEHMETOĞLU, M., UYSAL, M., NİŞ, A., AYGÖRMEZ, Y., ... Bayati, M.(2023). Combined effect of using steel fibers and demolition waste aggregates on the performance of fly ash/slag based geopolymer concrete. European Journal of Environmental and Civil Engineering , vol.27, no.15, 4251-4278.
Lakew, Asfaw Et Al. "Combined effect of using steel fibers and demolition waste aggregates on the performance of fly ash/slag based geopolymer concrete," European Journal of Environmental and Civil Engineering , vol.27, no.15, 4251-4278, 2023
Lakew, Asfaw M. Et Al. "Combined effect of using steel fibers and demolition waste aggregates on the performance of fly ash/slag based geopolymer concrete." European Journal of Environmental and Civil Engineering , vol.27, no.15, pp.4251-4278, 2023
Lakew, A. M. Et Al. (2023) . "Combined effect of using steel fibers and demolition waste aggregates on the performance of fly ash/slag based geopolymer concrete." European Journal of Environmental and Civil Engineering , vol.27, no.15, pp.4251-4278.
@article{article, author={Asfaw Mekonnen Lakew Et Al. }, title={Combined effect of using steel fibers and demolition waste aggregates on the performance of fly ash/slag based geopolymer concrete}, journal={European Journal of Environmental and Civil Engineering}, year=2023, pages={4251-4278} }