Estimation of ultimate bearing capacity of strip footings on cohesive-frictional soils using non-linear shear strength model DOI Creative Commons
Quang N. Pham,

Pham Ngoc Vinh

The University of Danang - Journal of Science and Technology, Journal Year: 2024, Volume and Issue: unknown, P. 29 - 34

Published: June 30, 2024

This study widely investigated the applicability of ultimate bearing capacity formula from Architectural Institute Japan (AIJ) while considering effect footing width. An in-house RPFEM program was developed using a non-linear shear strength model that is sensitive to confining stress. The research focuses on evaluating how width and soil properties affect strip footings. Coefficients within AIJ were calculated compared those derived RPFEM, different combinations cohesive frictional strengths across various widths. results closely matched obtained formula. suggests can accurately estimate footings cohesive-frictional soils, taking into account

Language: Английский

Estimation of ultimate bearing capacity of strip footings on cohesive-frictional soils using non-linear shear strength model DOI Creative Commons
Quang N. Pham,

Pham Ngoc Vinh

The University of Danang - Journal of Science and Technology, Journal Year: 2024, Volume and Issue: unknown, P. 29 - 34

Published: June 30, 2024

This study widely investigated the applicability of ultimate bearing capacity formula from Architectural Institute Japan (AIJ) while considering effect footing width. An in-house RPFEM program was developed using a non-linear shear strength model that is sensitive to confining stress. The research focuses on evaluating how width and soil properties affect strip footings. Coefficients within AIJ were calculated compared those derived RPFEM, different combinations cohesive frictional strengths across various widths. results closely matched obtained formula. suggests can accurately estimate footings cohesive-frictional soils, taking into account

Language: Английский

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