A practical method to evaluate failure envelopes of shallow foundations considering soil strain softening and rate effects
A practical method to evaluate failure envelopes of shallow foundations considering soil strain softening and rate effects
This paper presents a practical method to evaluate the development of failure envelopes of coastal and offshore shallow foundations after the action of multi-directional cyclic loading considering soil degradation. This is realised by implementing a soil strain softening and rate model into a finite element package and using a combined approach of load controlled geometrically nonlinear finite element analysis and displacement controlled small strain finite element analysis. The gradual evolution of soil strain softening and rate effects are monitored and utilised to update the shear strength during the analysis under multi-directional cyclic loading. The failure envelope is then investigated based on the updated shear strength field of the soil. After introducing the approach and demonstrating with an example, a systematic study is presented to explore the effects of soil strain softening and rate parameters, soil stiffness index and period of cyclic loading on load carrying capacity of coastal and offshore shallow foundations. The results show that soil degradation should be taken into account in design of coastal and offshore shallow foundations because it is detrimental to the capacity of shallow foundations. Results of the parametric analyses have shown that soil sensitivity, relative ductility and the stiffness index have more influence on capacity of shallow foundations subjected to undrained cyclic preloading than strain rate parameter and the period of cyclic loading.
Failure envelope, Shallow foundation, Soil degradation, Strain rate effect, Strain softening effect, Undrained cyclic preloading
395-407
Xiao, Zhong
6868e8a2-424f-4d7c-ad20-ef45e3a59cb2
Tian, Yinghui
f7bbae79-c2c1-4a75-acc1-fb9606be92fb
Gourvenec, Susan
6ff91ad8-1a91-42fe-a3f4-1b5d6f5ce0b8
September 2016
Xiao, Zhong
6868e8a2-424f-4d7c-ad20-ef45e3a59cb2
Tian, Yinghui
f7bbae79-c2c1-4a75-acc1-fb9606be92fb
Gourvenec, Susan
6ff91ad8-1a91-42fe-a3f4-1b5d6f5ce0b8
Xiao, Zhong, Tian, Yinghui and Gourvenec, Susan
(2016)
A practical method to evaluate failure envelopes of shallow foundations considering soil strain softening and rate effects.
Applied Ocean Research, 59, .
(doi:10.1016/j.apor.2016.06.015).
Abstract
This paper presents a practical method to evaluate the development of failure envelopes of coastal and offshore shallow foundations after the action of multi-directional cyclic loading considering soil degradation. This is realised by implementing a soil strain softening and rate model into a finite element package and using a combined approach of load controlled geometrically nonlinear finite element analysis and displacement controlled small strain finite element analysis. The gradual evolution of soil strain softening and rate effects are monitored and utilised to update the shear strength during the analysis under multi-directional cyclic loading. The failure envelope is then investigated based on the updated shear strength field of the soil. After introducing the approach and demonstrating with an example, a systematic study is presented to explore the effects of soil strain softening and rate parameters, soil stiffness index and period of cyclic loading on load carrying capacity of coastal and offshore shallow foundations. The results show that soil degradation should be taken into account in design of coastal and offshore shallow foundations because it is detrimental to the capacity of shallow foundations. Results of the parametric analyses have shown that soil sensitivity, relative ductility and the stiffness index have more influence on capacity of shallow foundations subjected to undrained cyclic preloading than strain rate parameter and the period of cyclic loading.
Text
2016 Applied Ocean Research 59_395-407 Xiao et al.
- Accepted Manuscript
More information
Accepted/In Press date: 27 June 2016
e-pub ahead of print date: 15 July 2016
Published date: September 2016
Keywords:
Failure envelope, Shallow foundation, Soil degradation, Strain rate effect, Strain softening effect, Undrained cyclic preloading
Identifiers
Local EPrints ID: 414713
URI: http://eprints.soton.ac.uk/id/eprint/414713
ISSN: 0141-1187
PURE UUID: 438434d9-6146-4068-abd4-05e2743c45cb
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Date deposited: 06 Oct 2017 16:31
Last modified: 16 Mar 2024 04:31
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Author:
Zhong Xiao
Author:
Yinghui Tian
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