Cite - Stress-Dependent Fluid Flow in a 3D-Printed Rough Fracture - Project

ACM ref

Tomos Phillips, Tom Bultreys, Stefanie Van Offenwert, and Veerle Cnudde. Stress-Dependent Fluid Flow in a 3D-Printed Rough Fracture. Digital Rocks Portal (December 2020). https://www.digitalrocksportal.org/projects/339

APA

Phillips, T., Bultreys, T., Van Offenwert, S., & Cnudde, V. (2020, December 27). Stress-Dependent Fluid Flow in a 3D-Printed Rough Fracture. Retrieved December 03, 2024, from www.digitalrocksportal.org

BibTeX

@misc{dataset,
  author = {Phillips, Tomos and Bultreys, Tom and Van Offenwert, Stefanie and Cnudde, Veerle},
  title = {Stress-Dependent Fluid Flow in a 3D-Printed Rough Fracture},
  year = {2020},
  publisher = {Digital Rocks Portal},
  doi = {10.17612/xgv3-1k27},
  howpublished = {\url{https://www.digitalrocksportal.org/projects/339}}
}

MLA

Phillips, Tomos, Bultreys, Tom, Van Offenwert, Stefanie, and Cnudde, Veerle. "Stress-Dependent Fluid Flow in a 3D-Printed Rough Fracture." Digital Rocks Portal, Digital Rocks Portal, 27 Dec. 2020, https://www.digitalrocksportal.org/projects/339 Accessed 3 Dec. 2024.

IEEE

[1]T. Phillips, T. Bultreys, S. Van Offenwert, and V. Cnudde, "Stress-Dependent Fluid Flow in a 3D-Printed Rough Fracture", Digital Rocks Portal, 2020. [Online]. Available: http://www.digitalrocksportal.org. [Assessed: 3-Dec-2024]