Advanced search
Publication Cover
Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards Volume 16, 2022 - Issue 2
Submit an article Journal homepage
5,829
Views
4
CrossRef citations to date
0
Altmetric
Articles

What is a characteristic value for soils?

T. Länsivaaraa Research Centre Terra, Tampere University, Tampere, FinlandCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-6427-8330
ORCID Icon,
K. K. Phoonb Singapore University of Technology and Design, SingaporeORCID Iconhttps://orcid.org/0000-0003-2577-8639
ORCID Icon &
J. Chingc Department of Civil Engineering, National Taiwan University, Taipei, TaiwanORCID Iconhttps://orcid.org/0000-0001-6028-1674
ORCID Icon
Pages 199-224 | Received 26 Mar 2021, Accepted 29 Aug 2021, Published online: 12 Sep 2021

References

  • Bedi, A., and T. L. L. Orr. 2014. Rock Engineering and Rock Mechanics: Structures in and on Rock Masses (pp.1517–1523). doi:https://doi.org/10.1201/b16955-264.
  • Bond, A., and A. Harris. 2008. Decoding Eurocode 7. London: Taylor and Francis.
  • Cami, B., S. Javankhoshdel, K. K. Phoon, and J. Ching. 2020. “Scale of Fluctuation for Spatially Varying Soils: Estimation Methods and Values. ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems.” Part A: Civil Engineering 6 (4): 03120002.
  • CAN/CSAS614:2014. Canadian Highway Bridge Design Code. Mississauga, Ontario, Canada: Canadian Standards Organization.
  • CEN. 2002. EN 1990: Eurocode - Basis of structural design. Comité Européen de Normalisation.
  • CEN. 2004. EN 1997-1: Geotechnical design – Part 1: General rules. Comité Européen de Normalisation.
  • CEN. 2020. prEN 1997-1 Geotechnical design – General rules (PT6) Oct2020. Comité Européen de Normalisation.
  • Ching, J., Y. G. Hu, and K. K. Phoon. 2016. “On Characterizing Spatially Variable Shear Strength Using Spatial Average.” Probabilistic Engineering Mechanics 45: 31–43.
  • Ching, J., W. H. Huang, and K. K. Phoon. 2020. “3D Probabilistic Site Characterization by Sparse Bayesian Learning. Journal of Engineering Mechanics.” ASCE 146 (12): 04020134.
  • Ching, J., S. W. Lee, and K. K. Phoon. 2016. “Undrained Strength for a 3D Spatially Variable Clay Column Subjected to Compression or Shear.” Probabilistic Engineering Mechanics 45: 127–139.
  • Ching, J., and K. K. Phoon. 2011. “A Quantile-Based Approach for Calibrating Reliability-Based Partial Factors.” Structural Safety 33: 275–285.
  • Ching, J., and K. K. Phoon. 2013a. “Mobilized Shear Strength of Spatially Variable Soils Under Simple Stress States.” Structural Safety 41: 20–28.
  • Ching, J., and K. K. Phoon. 2013b. “Probability Distribution for Mobilized Shear Strengths of Spatially Variable Soils Under Uniform Stress States.” Georisk: Assessment & Management of Risk for Engineered Systems & Geohazards 7 (3): 209–224.
  • Ching, J., and K. K. Phoon. 2013c. “Multivariate Distribution for Undrained Shear Strengths Under Various Test Procedures.” Canadian Geotechnical Journal 50 (9): 907–923.
  • Ching, J., and K. K. Phoon. 2015. Constructing Multivariate Distribution for Soil Parameters. Chapter 1, Risk and Reliability in Geotechnical Engineering, CRC Press, 3–76.
  • Ching, J., K. K. Phoon, and Y.-C. Chen. 2010. “Reducing Shear Strength Uncertainties in Clays by Multivariate Correlations.” Can. Geotech. J 47: 16–33. doi:https://doi.org/10.1139/T09-074.
  • Ching, J., K. K. Phoon, K. F. Chen, T. L. L. Orr, and H. R. Schneider. 2020b. “Statistical Determination of Multivariate Characteristic Values for Eurocode 7.” Structural Safety 82: 101893.
  • Ching, J., K. K. Phoon, J. R. Chen, and J. Park. 2013. “Robustness of Constant LRFD Factors for Drilled Shafts in Multiple Strata.” Journal of Geotechnical and Geoenvironmental Engineering 139 (7): 1104–1114.
  • Ching, J., K. K. Phoon, and P. H. Kao. 2014. “Mean and Variance of Mobilized Shear Strength for Spatially Variable Soils Under Uniform Stress States. Journal of Engineering Mechanics.” ASCE 140 (3): 487–501.
  • Ching, J., K. K. Phoon, Z. Khan, D. M. Zhang, and H. W. Huang. 2020a. “Role of Municipal Database in Constructing Site-Specific Multivariate Probability Distribution.” Computers and Geotechnics 124: 103623.
  • Ching, J., K. K. Phoon, and Y. K. Pan. 2017. “On Characterizing Spatially Variable Soil Young’s Modulus Using Spatial Average.” Structural Safety 66: 106–117.
  • Ching, J., K. K. Phoon, and J. J. Yang. 2015. “Role of Redundancy in Simplified Geotechnical Reliability-Based Design - a Quantile Value Method Perspective.” Structural Safety 55: 37–48.
  • Ching, J., K. K. Phoon, and J. W. Yu. 2014. “Linking Site Investigation Efforts to Final Design Savings with Simplified Reliability-Based Design Methods.” Journal of Geotechnical and Geoenvironmental Engineering. ASCE 140(3): 04013032.
  • Ching, J., S. P. Sung, and K. K. Phoon. 2017. “Worst Case Scale of Fluctuation in Basal Heave Analysis Involving Spatially Variable Clays.” Structural Safety 68: 28–42.
  • Ching, J., X. W. Tong, and Y. G. Hu. 2016. “Effective Young’s Modulus for a Spatially Variable Elementary Soil Mass Subjected to a Simple Stress State.” Georisk: Assessment & Management of Risk for Engineered Systems & Geohazards 10 (1): 11–26.
  • Ching, J., S. Wu, and K. K. Phoon. 2021. “Constructing Quasi-Site-Specific Multivariate Probability Distribution Using Hierarchical Bayesian Model. Journal of Engineering Mechanics.” ASCE 147 (10): 04021069.
  • Ching, J., Z. Y. Yang, and K. K. Phoon. 2021. “Dealing with non-Lattice Data in Three-Dimensional Probabilistic Site Characterization. Journal of Engineering Mechanics.” ASCE 147 (5): 06021003.
  • Denver, H., and N. K. Ovesen. 1994. Assesment of Characteristic Values for Soil Parameters for Design. New Delhi, India: XIII ICSMFE 1994.
  • Di Buò, B., J. Selänpää, T. Länsivaara, and M. D’Ignazio. 2018. Evaluation of Existing CPTu based Correlations for Deformation Properties of Soft Clays. CPT18 - 4th International Symposium on Cone Penetration Testing, Delft.
  • Fenton, G. A., and D. V. Griffiths. 2008. Risk Assessment in Geotechnical Engineering. Hoboken, N.J.: John Wiley & Sons.
  • Fenton, G. A., F. Naghibi, D. Dundas, R. J. Bathurst, and D. V. Griffiths. 2016. “Reliability-based Geotechnical Design in 2014 Canadian Highway Bridge Design Code.” Can. Geotech. J 53: 236–251. doi:https://doi.org/10.1139/cgj-2015-0158.
  • Hansen, J. B. 1965. “Philosophy of Foundation Design: DesignCriteria, Safety Factors and Settlement Limits.” Paper presented at the proceedings, symposium on bearing capacity and settlement of foundations, Duke University, Durham, 1–13.
  • Hicks, M. A. 2013. “An Explanation of Characteristic Values of Soil Properties in Eurocode 7.” In Modern Geotechnical Design Codes of Practice, edited by P. Arnold, G. A. Fenton, M. A. Hicks, T. Schweckendiek, and B. Simpson, 36–45. Amsterdam: IOS Press.
  • Hicks, M. A., and J. D. Nuttall. 2012. Influence of Soil Heterogeneity on Geotechnical Performance and Uncertainty: A Stochastic View on ec7. In Proceedings of 10th International ProbabilisticWorkshop, Stuttgart, Germany, pp. 215–227.
  • Hicks, M. A., and K. Samy. 2002. “Reliability-based Characteristic Values: a Stochastic Approach to Eurocode 7.” Ground Engineering 35 (12): 30–34.
  • Hicks, M. A., D. Varkey, A. P. van den Eijnden, T. de Gast, and P. J. Vardon. 2019. “On Characteristic Values and the Reliability-Based Assessment of Dykes.” Georisk: Assessment & Management of Risk for Engineered Systems & Geohazards 13 (4): 313–319.
  • Honjo, Y., K. L. T. Chung, T. Hara, M. Shirato, M. Suzuki, and Y. Kikuchi. 2009. “Code Calibration in Reliability Based Design Level I Verification Format for Geotechnical Structures.” Geotechnical Risk and Safety – Honjo et al. (eds). 2009 Taylor & Francis Group, London, ISBN 978-0-415-49874-6. Pages 435–452.
  • Hu, Y. G., and J. Ching. 2015. “Impact of Spatial Variability in Soil Shear Strength on Active Lateral Forces.” Structural Safety 52: 121–131.
  • Institution of Civil Engineers. 2017. State of the Nation 2017: Digital Transformation. London. https://www.ice.org.uk/getattachment/news-and-insight/policy/state-of-the-nation-2017-digital-transformation/ICE-SoN-Report-Web-Updated.pdf.aspx.
  • Janbu, N. 1995. Deformation of Soils with Collapsible Grain Structure. The Ian Boyd Donald Symposium on Modern developments in geomechanics, Monash University, Australia, pp. 127–137. Published also in Bulletin 29, Department of Geotechnical Engineering, Norwegian University of Science and Technology.
  • Johnson, N. L. 1949. “Systems of Frequency Curves Generated by Methods of Translation.” Biometrika 36: 149–176.
  • Knuuti, M., and T. Länsivaara. 2019. Performance of Variable Partial Factor approach in a slope design. In 13th International Conference on Applications of Statistics and Probability in Civil Engineering(ICASP13), Seoul, South Korea, May 26–30, 2019. doi:https://doi.org/10.22725/ICASP13.475.
  • Länsivaara, T. 2000. Painumalaskentamenetelmien käyttökelpoisuuden arviointi. Tielaitoksen selvityksiä, no. 44, Tiehallinto, Helsinki (in Finnish).
  • Länsivaara, T. 2012. Some Aspects on Creep and Primary Deformation Properties of Soft Sensitive Scandinavian Clays. in Proceedings of the 16th Nordic Geotechnical Meeting NGM 2012, 9–12 May 2012, Copenhagen, Denmark. 16th Nordic Geotechnical Meeting, vol. 1–2, Danish Geotechnical Society, Copenhagen, Denmark, pp. 397–404.
  • Länsivaara, T., and M. Knuuti. 2015. A Proposal for some Modifications of EN 1997-1 Design Approaches. in Fifth International Symposium on Geotechnical Safety and Risk (ISGSR): Rotterdam, The Netherlands 13–16 October 2015. IOS Press, pp. 486–491, International Symposium on Geotechnical Safety and Risk, Netherlands, 1/11/10.
  • Länsivaara, T., and T. Poutanen. 2014. “Safety Concepts for Slope Stability.” In Landslides in Sensitive Clays: From Geosciences to Risk Management. Advances in Natural and Technological Hazards Research, vol. 36, edited by J.-S. L'Heureux, A. Locat, S. Leroueil, D. Demers, and J. Locat, 395–407. Netherlands: Springer. doi:https://doi.org/10.1007/978-94-007-7079-9_31.
  • Li, D. Q., S. B. Wu, C. B. Zhou, and K. K. Phoon. 2012. “Performance of Translation Approach for Modeling Correlated non-Normal Variables.” Structural Safety 39: 52–61.
  • Low, B. K. 2015. “Reliability-based Design: Practical Procedures, Geotechnical Examples, and Insights.” Chapter 9 in Risk and Reliability in Geotechnical Engineering. Edited by Phoon, K. K. & Ching, J. CRC Press.
  • Lunne, T., T. Berre, and S. Strandvik. 1997. “Sample Disturbance Effects in Soft Low Plastic Norwegian Clay.” In Proceeding of the International Symposium on Recent Developments in Soil and Pavement Mechanics. Rio De Janeiro, Brazil, 81–102.
  • Müller, R. 2013. “Probabilistic Stability Analysis of Embankments Founded on Clay.” Doctoral Thesis. Division of Soil and Rock Mechanics, Department of Civil and Architectural Engineering, Royal Institute of Technology, Stockholm.
  • Müller, R., S. Larsson, and J. Spross. 2014. “Extended Multivariate Approach for Uncertainty Reduction in the Assessment of Undrained Shear Strength in Clays.” Canadian Geotechnical Journal 51: 231–245. doi:https://doi.org/10.1139/cgj-2012-0176.
  • Müller, R., S. Larsson, and J. Spross. 2016. “Multivariate Stability Assessment During Staged Construction.” Canadian Geotechnical Journal 53: 603–618. doi:https://doi.org/10.1139/cgj-2015-0037.
  • National Research Council. 1995. Probabilistic Methods in Geotechnical Engineering. Washington, DC: National Academies Press.
  • Orr, T. L. L. 2015. Managing Risk and Achieving Reliable Geotechnical Designs using Eurocode 7. Chapter 10 in Risk and Reliability in Geotechnical Engineering. Edited by Phoon, K. K. & Ching, J. CRC Press.
  • Phoon, K. K. 2017. “Role of Reliability Calculations in Geotechnical Design.” Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards 11 (1): 4–21.
  • Phoon, K. K. 2018. “Editorial for Special Collection on Probabilistic Site Characterization. ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems.” Part A: Civil Engineering 4 (4): 02018002.
  • Phoon, K. K. 2020. “The Story of Statistics in Geotechnical Engineering.” Georisk: Assessment & Management of Risk for Engineered Systems & Geohazards 14 (1): 3–25.
  • Phoon, K. K., and J. Ching. 2013. Is Site Investigation an Investment or Expense? - A Reliability Perspective. Proceedings, 18th Southeast Asian Geotechnical Conference (18SEAGC) & Inaugural AGSSEA Conference (1AGSSEA), 29–31 May 2013, Singapore, 25–43.
  • Phoon, K. K., and J. Ching. 2016. Semi-probabilistic Reliability-based design. Chapter 6, Reliability of Geotechnical Structures in ISO2394, Eds. K. K. Phoon & J. V. Retief, CRC Press/Balkema, 159–192.
  • Phoon, K. K., and J. Ching. 2021. “Project DeepGeo - Data-Driven 3D Subsurface Mapping.” Journal of GeoEngineering 16 (2): 47–59.
  • Phoon, K. K., J. Ching, and J. R. Chen. 2013. “Performance of Reliability-Based Design Code Formats for Foundations in Layered Soils.” Computers and Structures 126: 100–106.
  • Phoon, K. K., J. Ching, and T. Shuku. 2021. Challenges in Data-driven Site Characterization. Georisk, doi:https://doi.org/10.1080/17499518.2021.1896005.
  • Phoon, K. K., and F. H. Kulhawy. 2008. Serviceability Limit State Reliability-based Design. Chapter 9, Reliability-Based Design in Geotechnical Engineering: Computations and Applications, Taylor & Francis, UK, 344–383.
  • Phoon, K. K., F. H. Kulhawy, and M. D. Grigoriu. 1995. Reliability-based Design of Foundations For Transmission Line Structures. Report TR-105000, Electric Power Research Institute, Palo Alto.
  • Phoon, K. K., F. H. Kulhawy, and M. D. Grigoriu. 2003a. “Multiple Resistance Factor Design (MRFD) for Spread Foundations. Journal of Geotechnical and Geoenvironmental Engineering.” ASCE 129 (9): 807–818.
  • Phoon, K. K., F. H. Kulhawy, and M. D. Grigoriu. 2003b. “Development of a Reliability-Based Design Framework for Transmission Line Structure Foundations. Journal of Geotechnical and Geoenvironmental Engineering.” ASCE 129 (9): 798–806.
  • Phoon, K. K., J. V. Retief, J. Ching, M. Dithinde, T. Schweckendiek, Y. Wang, and L. M. Zhang. 2016. “Some Observations on ISO2394:2015 Annex D (Reliability of Geotechnical Structures).” Structural Safety 62: 24–33.
  • Phoon, K. K., and C. Tang. 2019. “Characterization of Geotechnical Model Uncertainty.” Georisk: Assessment & Management of Risk for Engineered Systems & Geohazards 13 (2): 101–130.
  • Prästings, A., J. Spross, and S. Larsson. 2019. “Characteristic Values of Geotechnical Parameters in Eurocode 7.” Proceedings of the Institution of Civil Engineers – Geotechnical Engineering 172 (4): 301–311. doi:https://doi.org/10.1680/jgeen.18.00057.
  • Ravindra, M. K., and T. V. Galambos. 1978. ““Load and Resistance Factor Design for Steel”, Journal of Structural Division.” ASCE 104 (ST9): 1337–1353.
  • Schneider, H. R., and M. A. Schneider. 2013. Dealing with Uncertainties in EC7 with Emphasis on Determination of Characteristic Soil Properties, Modern Geotechnical Design Codes of Practice, eds. P. Arnold, G.A. Fenton, M.A. Hicks, T. Schweckendiek and B. Simpson, IOS Press, Amsterdam, pp87–101.
  • Simpson, B. 2011. “Reliability in Geotechnical Design – some Fundamentals.” Proceedings, Third International Symposium on Geotechnical Safety & Risk, Federal Waterways Engineering and Research Institute, Germany, 393–399.
  • Simpson, B., and R. Driscoll. 1998. Eurocode 7: A Commentary. Construction research communications Ltd.
  • Student. 1908. The Probable Error of a mean. Biometrika, Vol 6, pp1–25.
  • Tabarroki, M., J. Ching, K. K. Phoon, and Y. Z. Chen. 2021. Mobilisation-based Characteristic Value of Shear Strength for Ultimate Limit States, Georisk: Assessment & Management of Risk for Engineered Systems & Geohazards, in press.
  • Tang, C., and K. K. Phoon. 2021. Model Uncertainties in Foundation Design. Boca Raton: CRC Press.
  • Vanmarcke, E. H. 1977. “Probabilistic Modeling of Soil Profiles.” ASCE Journal of the Geotechnical Engineering Division 103 (11): 1227–1246.
  • Vanmarcke, E. 1983. Random Fields: Analysis and Synthesis. Cambridge, USA: The MIT Press.
  • Vanmarcke, E. 2010. Random Fields, Analysis and Synthesis. Singapore: World Scientific Publishing Co. Pte. Ltd.
  • Wang, Y., T. Schweckendiek, W. P. Gong, T. Y. Zhao, and K. K. Phoon. 2016. “Direct Probability-based Design Methods.” Chapter 7, Reliability of Geotechnical Structures in ISO2394, Eds. K. K. Phoon & J. V. Retief, CRC Press/Balkema, 2016, 193–226.
  • Wang, Y., T. Zhao, and Z. Cao. 2015. “Determination of Soil Property Characteristic Values from Standard Penetration Tests.” 12th International Conference on Applications of Statistics and Probability in Civil Engineering, ICASP12 Vancouver, Canada, July 12–15, 2015.
  • Zhang, L., H. T. Tang, L. Zhang, and J. Zheng. 2004. “Reducing Uncertainty of Prediction from Empirical Correlations.” Journal of Geotechnical and Geoenvironmental Engineering 130 (5): 526–534. doi:https://doi.org/10.1061/(ASCE)1090-0241(2004)130:5(526).

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.