Öz
This paper deals with the calibration of the Barcelona Basic Model for intact samples of unsaturated Ankara Clay. Ankara Clay is a stiff to very stiff high-plasticity expansive clay that often contains fissures in its intact form. Intact samples were extracted from the premises of Middle East Technical University in Ankara. A comprehensive experimental campaign was carried out in order to determine the hydraulic and mechanical properties of the sample, encompassing saturated and unsaturated triaxial and oedometric compression tests. Soil Water Retention Curve (SWRC) and shrinkage curve were also determined experimentally. Results of the experiments shed light on the strength characteristics of intact Ankara Clay. These results were further used to calibrate the Barcelona Basic Model such that it could model the unsaturated behavior of the sample under compression and shear loadings. Valuable insights were gained regarding the suitability and feasibility of using the Barcelona Basic Model for Ankara Clay and other similar stiff high-plasticity clays. It was concluded that the Barcelona Basic Model cannot accurately model the behavior of stiff high-plasticity expansive clays such as Ankara Clay because it fails to capture the brittle behavior they tend to exhibit at high suctions.
Anahtar Kelimeler
Barcelona basic model unsaturated clay stiff clay constitutive model
Kaynakça
- E. E. Alonso, A. Gens, and A. Josa, “A constitutive model for partially saturated soils,” Géotechnique, vol. 40, no. 3, pp. 405–430, Sep. 1990, doi: 10.1680/geot.1990.40.3.405.
- M. B. Kenanoğlu, “Determination of Unsaturated Soil Properties from Simplified Experimental Procedures,” Middle East Technical University, Ankara, Turkey, 2023.
- R. A. Naghadeh, “Hydro-Mechanical Behavior of Unsaturated Specimens Isotropically Reconstituted from Slurry and Compacted Specimens,” Middle East Technical University, Turkey, 2016.
- F. Tunçdemir and M. U. Ergun, “A Laboratory Study into Fracture Grouting of Fissured Ankara Clay,” in Innovations in Grouting and Soil Improvement, Austin, Texas, United States: American Society of Civil Engineers, Oct. 2005, pp. 1–12. doi: 10.1061/40783(162)16.
- Z. A. Erguler and R. Ulusay, “Engineering characteristics and environmental impacts of the expansive Ankara Clay, and swelling maps for SW and central parts of the Ankara (Turkey) metropolitan area,” Environ. Geol., vol. 44, no. 8, pp. 979–992, Nov. 2003, doi: 10.1007/s00254-003-0841-y.
- M. Fredlund, G. W. Wilson, and D. Fredlund, “Representation and estimation of the shrinkage curve,” vol. 1, pp. 145–149, Mar. 2002.
- M. Basharat and N. K. Toker, “Utility of Temperature Control on Suction Application by Vapour Equilibrium Technique,” presented at the 8th Asia-Pacific Conference on Unsaturated Soils, Melbourne, 2024.
- M. Th. Van Genuchten, “A closed‐form equation for predicting the hydraulic conductivity of unsaturated soils,” Soil Sci. Soc. Am. J., pp. 892–898, 1980.
- A. W. Bishop and D. J. Henkel, The Measurement of Soil Properties in the Triaxial Test. Edward Arnold, 1964.
- D. G. Fredlund and N. R. Morgenstern, “Stress State Variables for Unsaturated Soils,” J. Geotech. Eng. Div., vol. 103, no. 5, pp. 447–466, May 1977, doi: 10.1061/AJGEB6.0000423.
- J. Jaky, “The coefficient of earth pressure at rest,” J. Soc. Hung. Archit. Eng., 1944, Accessed: Feb. 11, 2025. [Online]. Available: https://cir.nii.ac.jp/crid/1571135650251603584
- L. R. Hoyos and D. D. Pérez-Ruiz, “A Refined Approach to Barcelona Basic Model Using the Apparent Tensile Strength Concept,” in Unsaturated Soils: Research and Applications: Volume 2, 2012.
- R. Quevedo, C. Romanel, and D. Roehl, “Numerical modeling of unsaturated soil behavior considering different constitutive models,” MATEC Web Conf., vol. 337, p. 02007, 2021, doi: 10.1051/matecconf/202133702007.
- J. C. B. Benatti, R. A. Rodrigues, and M. G. Miguel, “Aspects of Mechanical Behavior and Modeling of a Tropical Unsaturated Soil,” Geotech. Geol. Eng., vol. 31, no. 5, pp. 1569–1585, Oct. 2013, doi: 10.1007/s10706-013-9682-y.
- M. Aukenthaler, “The frozen & unfrozen Barcelona Basic Model,” PhD Thesis, TU Delft, 2016. Accessed: Feb. 11, 2025. [Online]. Available: https://repository.tudelft.nl/record/uuid:95917a12-00dd-4ace-b86d-048833c510df
Öz
This paper deals with the calibration of the Barcelona Basic Model for intact samples of unsaturated Ankara Clay. Ankara Clay is a stiff to very stiff high-plasticity expansive clay that often contains fissures in its intact form. Intact samples were extracted from the premises of Middle East Technical University in Ankara. A comprehensive experimental campaign was carried out in order to determine the hydraulic and mechanical properties of the sample, encompassing saturated and unsaturated triaxial and oedometric compression tests. Soil Water Retention Curve (SWRC) and shrinkage curve were also determined experimentally. Results of the experiments shed light on the strength characteristics of intact Ankara Clay. These results were further used to calibrate the Barcelona Basic Model such that it could model the unsaturated behavior of the sample under compression and shear loadings. Valuable insights were gained regarding the suitability and feasibility of using the Barcelona Basic Model for Ankara Clay and other similar stiff high-plasticity clays. It was concluded that the Barcelona Basic Model cannot accurately model the behavior of stiff high-plasticity expansive clays such as Ankara Clay because it fails to capture the brittle behavior they tend to exhibit at high suctions.
Anahtar Kelimeler
Barcelona basic model unsaturated clay stiff clay constitutive model
Kaynakça
- E. E. Alonso, A. Gens, and A. Josa, “A constitutive model for partially saturated soils,” Géotechnique, vol. 40, no. 3, pp. 405–430, Sep. 1990, doi: 10.1680/geot.1990.40.3.405.
- M. B. Kenanoğlu, “Determination of Unsaturated Soil Properties from Simplified Experimental Procedures,” Middle East Technical University, Ankara, Turkey, 2023.
- R. A. Naghadeh, “Hydro-Mechanical Behavior of Unsaturated Specimens Isotropically Reconstituted from Slurry and Compacted Specimens,” Middle East Technical University, Turkey, 2016.
- F. Tunçdemir and M. U. Ergun, “A Laboratory Study into Fracture Grouting of Fissured Ankara Clay,” in Innovations in Grouting and Soil Improvement, Austin, Texas, United States: American Society of Civil Engineers, Oct. 2005, pp. 1–12. doi: 10.1061/40783(162)16.
- Z. A. Erguler and R. Ulusay, “Engineering characteristics and environmental impacts of the expansive Ankara Clay, and swelling maps for SW and central parts of the Ankara (Turkey) metropolitan area,” Environ. Geol., vol. 44, no. 8, pp. 979–992, Nov. 2003, doi: 10.1007/s00254-003-0841-y.
- M. Fredlund, G. W. Wilson, and D. Fredlund, “Representation and estimation of the shrinkage curve,” vol. 1, pp. 145–149, Mar. 2002.
- M. Basharat and N. K. Toker, “Utility of Temperature Control on Suction Application by Vapour Equilibrium Technique,” presented at the 8th Asia-Pacific Conference on Unsaturated Soils, Melbourne, 2024.
- M. Th. Van Genuchten, “A closed‐form equation for predicting the hydraulic conductivity of unsaturated soils,” Soil Sci. Soc. Am. J., pp. 892–898, 1980.
- A. W. Bishop and D. J. Henkel, The Measurement of Soil Properties in the Triaxial Test. Edward Arnold, 1964.
- D. G. Fredlund and N. R. Morgenstern, “Stress State Variables for Unsaturated Soils,” J. Geotech. Eng. Div., vol. 103, no. 5, pp. 447–466, May 1977, doi: 10.1061/AJGEB6.0000423.
- J. Jaky, “The coefficient of earth pressure at rest,” J. Soc. Hung. Archit. Eng., 1944, Accessed: Feb. 11, 2025. [Online]. Available: https://cir.nii.ac.jp/crid/1571135650251603584
- L. R. Hoyos and D. D. Pérez-Ruiz, “A Refined Approach to Barcelona Basic Model Using the Apparent Tensile Strength Concept,” in Unsaturated Soils: Research and Applications: Volume 2, 2012.
- R. Quevedo, C. Romanel, and D. Roehl, “Numerical modeling of unsaturated soil behavior considering different constitutive models,” MATEC Web Conf., vol. 337, p. 02007, 2021, doi: 10.1051/matecconf/202133702007.
- J. C. B. Benatti, R. A. Rodrigues, and M. G. Miguel, “Aspects of Mechanical Behavior and Modeling of a Tropical Unsaturated Soil,” Geotech. Geol. Eng., vol. 31, no. 5, pp. 1569–1585, Oct. 2013, doi: 10.1007/s10706-013-9682-y.
- M. Aukenthaler, “The frozen & unfrozen Barcelona Basic Model,” PhD Thesis, TU Delft, 2016. Accessed: Feb. 11, 2025. [Online]. Available: https://repository.tudelft.nl/record/uuid:95917a12-00dd-4ace-b86d-048833c510df
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | İnşaat Geoteknik Mühendisliği |
| Bölüm | Araştırma Makaleleri |
| Yazarlar | |
| Erken Görünüm Tarihi | 20 Haziran 2025 |
| Yayımlanma Tarihi | |
| Gönderilme Tarihi | 23 Ekim 2024 |
| Kabul Tarihi | 13 Haziran 2025 |
| Yayımlandığı Sayı | Yıl 2025 Cilt: 36 Sayı: 6 |