Development of Soil Water Characteristic Curves through Control of Relative Humidity

Author

Lauren E. Johnson, University of Arkansas, FayettevilleFollow
Julia I. Loshelder, South Dakota School of Mines and TechnologyFollow
Richard A. Coffman, University of Arkansas, FayettevilleFollow

Date of Graduation

5-2025

Document Type

Thesis

Degree Name

Bachelor of Science in Civil Engineering

Degree Level

Undergraduate

Department

Civil Engineering

Advisor/Mentor

Coffman, Richard

Committee Member

Loshelder, Julia

Abstract

The relationship between soil suction and soil water content in unsaturated soil mechanics is important but can be difficult to measure. The objective of the research described herein was to develop soil water characteristic curves (SWCC) from relative humidity values by incorporating the use of glycerin-water mixtures. Glycerin-water mixtures can be used to achieve different relative humidity levels by varying the concentration of glycerin within the mixture. The relative humidity created by each mixture was measured with a relative humidity sensor, and the relative humidity values and Kelvin’s equation were used to compute the total suction.

Soil water characteristic curves were then developed using the relationship between the applied total suction and the measured gravimetric water content of a 15-bar high air entry stone and four soils, including: illite, red clay, kaolinite, and Donna Fill. The soil SWCCs, obtained using glycerin-water mixtures, were compared with the SWCC developed using a chilled mirror hygrometer and the filter paper method. For all soils, the water-glycerin method effectively developed the portion of the SWCC at low water content and high suction values. For the soils that behaved as cohesive materials, there was sufficient data to establish the SWCC using the relative humidity method for suction values greater than 1000 kPa. At lower suction values, there was a lack of suction data. For the soil that behaved as a cohesionless materials, the relative humidity method resulted in all data residing along the residual water content, making the development of the SWCC difficult. Based on the results, the inexpensive and simple relative humidity method may be used to develop SWCC for cohesive soils at low water contents and high suction values.

Keywords

Relative Humidity; Water Content; Total Suction; Glycerin; Soil Water Characteristic Curve

Citation

Johnson, L. E., Loshelder, J. I., & Coffman, R. A. (2025). Development of Soil Water Characteristic Curves through Control of Relative Humidity. Civil Engineering Undergraduate Honors Theses Retrieved from https://scholarworks.uark.edu/cveguht/90