A Grading Entropy Review of PSD-Based Frost Susceptibility Criteria

Leak, James; Barreto, Daniel; Wright, Cat; Bernal Sanchez, Juan; Imre, Emoke

doi:10.1061/9780784485330.072

A Grading Entropy Review of PSD-Based Frost Susceptibility Criteria

Leak, James; Barreto, Daniel; Wright, Cat; Bernal Sanchez, Juan; Imre, Emoke

Authors

James Leak

Dr Daniel Barreto Gonzalez D.Barreto@napier.ac.uk
Associate Professor

Cat Wright

Dr Juan Bernal-Sanchez J.Bernal-Sanchez@napier.ac.uk
Lecturer

Emoke Imre

Contributors

T. Matthew Evans
Editor

Nina Stark
Editor

Susan Chang
Editor

Abstract

Particle size distribution (PSD) is recognised among geotechnical engineers as an informative soil descriptor, and often used to predict geomechanical behaviours. However, the effectiveness of PSD to characterise frost action is debatable. Existing criteria for assessing frost susceptibility have relied on traditional PSD descriptors, such as Cu, which depend on individual parameters (i.e., d10, d60) which explicitly neglect the effect of fines and gravel content. In turn, it has been reported that fines content is critical in the formation of ice lenses. Grading entropy is a method which accounts for all the information in the PSD. In this work, normalised entropy coordinates are used to review PSD-based frost susceptibility criteria and assess whether alternative PSD descriptors can more successfully characterise frost action susceptibility. The effect of PSD (via grading entropy coordinates) on the development of frost heave is investigated using existing experimental datasets. The findings in this work highlight significant variability in the PSD criteria, suggesting that PSD alone is not a reliable indicator. However, examining experimental datasets indicated a clear effect of PSD using grading entropy coordinates for understanding the development of frost heave.

Citation

Leak, J., Barreto, D., Wright, C., Bernal Sanchez, J., & Imre, E. (2024, February). A Grading Entropy Review of PSD-Based Frost Susceptibility Criteria. Presented at Geo-Congress 2024, Vancouver, British Columbia

Presentation Conference Type	Conference Paper (published)
Conference Name	Geo-Congress 2024
Start Date	Feb 25, 2024
End Date	Feb 28, 2024
Acceptance Date	Aug 23, 2023
Online Publication Date	Feb 22, 2024
Publication Date	2024
Deposit Date	Mar 4, 2024
Publisher	American Society of Civil Engineers
Pages	714-724
Series Title	Geotechnical Special Publication
Series Number	351
Book Title	Geo-Congress 2024: Soil Improvement, Sustainability, Geoenvironmental, and Cold Regions Engineering
DOI	https://doi.org/10.1061/9780784485330.072
Public URL	http://researchrepository.napier.ac.uk/Output/3531081
Related Public URLs	https://www.geocongress.org/