X. Song Et Al. , "Progressive damage process and destabilization precursor recognition of sulfate tailing-cemented paste backfill based on acoustic emission," POWDER TECHNOLOGY , vol.430, no.2023, pp.1-17, 2023
Song, X. Et Al. 2023. Progressive damage process and destabilization precursor recognition of sulfate tailing-cemented paste backfill based on acoustic emission. POWDER TECHNOLOGY , vol.430, no.2023 , 1-17.
Song, X., Yu, X., Zhao, W., Yang, F., Shi, J., & Yalçınkaya, Ç., (2023). Progressive damage process and destabilization precursor recognition of sulfate tailing-cemented paste backfill based on acoustic emission. POWDER TECHNOLOGY , vol.430, no.2023, 1-17.
Song, Xuepeng Et Al. "Progressive damage process and destabilization precursor recognition of sulfate tailing-cemented paste backfill based on acoustic emission," POWDER TECHNOLOGY , vol.430, no.2023, 1-17, 2023
Song, Xuepeng Et Al. "Progressive damage process and destabilization precursor recognition of sulfate tailing-cemented paste backfill based on acoustic emission." POWDER TECHNOLOGY , vol.430, no.2023, pp.1-17, 2023
Song, X. Et Al. (2023) . "Progressive damage process and destabilization precursor recognition of sulfate tailing-cemented paste backfill based on acoustic emission." POWDER TECHNOLOGY , vol.430, no.2023, pp.1-17.
@article{article, author={Xuepeng Song Et Al. }, title={Progressive damage process and destabilization precursor recognition of sulfate tailing-cemented paste backfill based on acoustic emission}, journal={POWDER TECHNOLOGY}, year=2023, pages={1-17} }