Atıf Formatları
Characterizing mechanical and multiscale porosity features of cementitious high sulfur tailings backfill using CT technology
  • IEEE
  • ACM
  • APA
  • Chicago
  • MLA
  • Harvard
  • BibTeX

Q. He Et Al. , "Characterizing mechanical and multiscale porosity features of cementitious high sulfur tailings backfill using CT technology," PROCESS SAFETY AND ENVIRONMENTAL PROTECTION , vol.195, pp.1-17, 2025

He, Q. Et Al. 2025. Characterizing mechanical and multiscale porosity features of cementitious high sulfur tailings backfill using CT technology. PROCESS SAFETY AND ENVIRONMENTAL PROTECTION , vol.195 , 1-17.

He, Q., Cao, S., & Yılmaz, E., (2025). Characterizing mechanical and multiscale porosity features of cementitious high sulfur tailings backfill using CT technology. PROCESS SAFETY AND ENVIRONMENTAL PROTECTION , vol.195, 1-17.

He, Qianru, Shuai Cao, And EROL YILMAZ. "Characterizing mechanical and multiscale porosity features of cementitious high sulfur tailings backfill using CT technology," PROCESS SAFETY AND ENVIRONMENTAL PROTECTION , vol.195, 1-17, 2025

He, Qianru Et Al. "Characterizing mechanical and multiscale porosity features of cementitious high sulfur tailings backfill using CT technology." PROCESS SAFETY AND ENVIRONMENTAL PROTECTION , vol.195, pp.1-17, 2025

He, Q. Cao, S. And Yılmaz, E. (2025) . "Characterizing mechanical and multiscale porosity features of cementitious high sulfur tailings backfill using CT technology." PROCESS SAFETY AND ENVIRONMENTAL PROTECTION , vol.195, pp.1-17.

@article{article, author={Qianru He Et Al. }, title={Characterizing mechanical and multiscale porosity features of cementitious high sulfur tailings backfill using CT technology}, journal={PROCESS SAFETY AND ENVIRONMENTAL PROTECTION}, year=2025, pages={1-17} }