Stability Charts for Closely Spaced Strip Footings on Hoek–Brown Rock Mass

Suraparb Keawsawasvong,Suttikarn Panomchaivath,Khemmapa Limpanawannakul,Jim Shiau

doi:10.1007/s10706-022-02077-x

Suraparb Keawsawasvong, Suttikarn Panomchaivath + Show 2 more

Open Access

https://doi.org/10.1007/s10706-022-02077-x

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Abstract

Footings are constructed closely to each other in mountainous rock areas and the determination of closely spaced bearing capacity footings on rock masses has become an important topic of recent research. The primary aim of this paper is to determine an efficiency factor, just like in the design of a pile group, that can be used to evaluate the bearing capacity of closely spaced footings on Hoek–Brown mass. The advanced finite element limit analysis of upper and lower bound theorems is used to study the stability of two and multiple interfering footings using the Hoek–Brown parameters such as GSI (geological strength index) and mi (Hoek–Brown yield parameter). This study found that the efficiency factor is influenced by three dimensionless parameters including GSI, mi, and S/B. Failure mechanisms of the problems are also investigated, and stability charts and tables produced for practical uses. Overall, these results broadly support the common understanding of the two key parameters GSI and mi in the HB failure criterion. As a result of these investigations, suggestions were identified for future research.

Highlights

Footings are constructed on rock masses in many hilly areas and the determination of their bearing capacity is of considerable importance in the design and construction process
The early study towards understanding the interference effect of two adjacent strip footings on sandy soils was conducted by Stuart (1962), who defined an efficiency factor that is a ratio between the ultimate bearing capacity of two adjacent footings and that of a single isolated footing
The rigorous upper bound (UB) and lower bound (LB) solutions can be used to assist in the design of a group of strip footings founded on rock mass with great confidence

Summary

Introduction

Footings are constructed on rock masses in many hilly areas and the determination of their bearing capacity is of considerable importance in the design and construction process. The interference effect in this study is defined using an efficiency factor that is a ratio between the ultimate bearing capacity of a group of footings and that of a single isolated footing. The early study towards understanding the interference effect of two adjacent strip footings on sandy soils was conducted by Stuart (1962), who defined an efficiency factor that is a ratio between the ultimate bearing capacity of two adjacent footings and that of a single isolated footing. Kumar and Ghosh (2007a, b) employed the stress characteristics and upper bound methods to evaluate the ultimate bearing capacity of two adjacent strip footings on cohesionless soil by considering the full ranges of the distance between two footings and the internal friction angle of sand. The rigorous UB and LB solutions can be used to assist in the design of a group of strip footings founded on rock mass with great confidence

Assumptions

Modelling

Finite Element Limit Analysis

Limitations

Findings

Conclusions