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Limit Equilibrium Analyses for Internal Design of Geosynthetic Reinforced Slopes: Influence of Potential Failure Surface and Strength Distribution

Title

Limit Equilibrium Analyses for Internal Design of Geosynthetic Reinforced Slopes: Influence of Potential Failure Surface and Strength DistributionExport publication in the APA format Export publication in the EXCEL format Export publication in the RIS format

Type

Article in International Scientific Journal

Date

2013

Title

Limit Equilibrium Analyses for Internal Design of Geosynthetic Reinforced Slopes: Influence of Potential Failure Surface and Strength Distribution

Type

Article in International Scientific Journal

Year

2013

Authors

Castorina Silva Vieira

(Author)

FEUP

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Maria de Lurdes Lopes

(Author)

FEUP

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Laura M. Caldeira

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Journal

Title: International Journal of Mining EngineeringImported from Authenticus Search for Journal Publications

Vol. 31

Pages: 1123-1135

ISSN: 0960-3182

Publisher: Springer Nature

Indexing

Scopus - 7 Citations

INSPEC

Scientific classification

FOS: Engineering and technology > Civil engineering

CORDIS: Technological sciences > Engineering > Civil engineering

Other information

Authenticus ID: P-008-BY7

DOI: 10.1007/s10706-013-9639-1

Abstract (EN): The paper presents results from a computer code, based on limit equilibrium analyses, able to quantify earth pressure coefficients for the internal design of geosynthetic reinforced soil structures and identify the potential failure surfaces. Failure mechanisms assuming bilinear or logarithmic spiral failure surfaces are considered. The influence of the potential failure surface and geosynthetic strength distribution on the earth pressure coefficient is analysed. Required reinforcement tensile strengths calculated by the developed program are compared with values published in the literature. To further evaluate the capabilities of limit equilibrium analyses, the numerical modelling of a geosynthetic reinforced steep slope, designed at ultimate limit state conditions (FS = 1), is also presented. Good agreement was achieved between the potential failure surfaces predicted by limit equilibrium analyses and those obtained with numerical modelling. © 2013 Springer Science+Business Media Dordrecht.

Language: English

Type (Professor's evaluation): Scientific

No. of pages: 13

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