Retaining walls are one of the important structures in nearshore environment and are generally designed based on deterministic approaches. The present paper focuses on the reliability assessment of cantilever retaining walls with due consideration to the uncertainties in soil parameters. Reliability analysis quantifies the level of reliability associated with designs and the associated risk. It also gives the formalisation of a design situation that is normally recognised by experienced designers and provides a greater level of consistency in design. The results are also examined in terms of a simple cost function. The study shows that sliding mode is the critical failure mode and the consequent failure costs are also higher. The study also...
Abstract: Practical reliability-based designs are illustrated for a footing foundation and an anchor...
Geotechnical design codes have been migrating from the traditional allowable stress design towards l...
10.1061/(ASCE)GT.1943-5606.0000061Journal of Geotechnical and Geoenvironmental Engineering1355616-62
Retaining walls are one of the important structures in nearshore environment and are generally desig...
ABSTRACT: Traditionally, the reliability of retaining walls is achieved through the use of safety fa...
In geotechnical engineering, decisions are made in the presence of uncertainties concerning the in-s...
Variabilities in the geomaterials and design parameters in conjunction with simplifications and assu...
In geotechnical engineering design decisions are made under a great deal of uncertainties as, for in...
In this paper the use of probability theory in reliability based optimum design of reinforced gravit...
Eurocode 7 had been introduced to supersede British Standards and used in geotechnical designs of ci...
Uncertainties in the soil parameters play a major role in the design of quay walls. In the current d...
The most important thing for engineers is the safety of the structure. To obtain safe structure, the...
Retaining wall design is crucial for modern construction works that requires stabilization for modif...
Retaining slope structures are increasingly considered in geotechnical engineering projects due to e...
Uncertainties in geotechnical Engineering is inevitable. The soil properties may disperse within a s...
Abstract: Practical reliability-based designs are illustrated for a footing foundation and an anchor...
Geotechnical design codes have been migrating from the traditional allowable stress design towards l...
10.1061/(ASCE)GT.1943-5606.0000061Journal of Geotechnical and Geoenvironmental Engineering1355616-62
Retaining walls are one of the important structures in nearshore environment and are generally desig...
ABSTRACT: Traditionally, the reliability of retaining walls is achieved through the use of safety fa...
In geotechnical engineering, decisions are made in the presence of uncertainties concerning the in-s...
Variabilities in the geomaterials and design parameters in conjunction with simplifications and assu...
In geotechnical engineering design decisions are made under a great deal of uncertainties as, for in...
In this paper the use of probability theory in reliability based optimum design of reinforced gravit...
Eurocode 7 had been introduced to supersede British Standards and used in geotechnical designs of ci...
Uncertainties in the soil parameters play a major role in the design of quay walls. In the current d...
The most important thing for engineers is the safety of the structure. To obtain safe structure, the...
Retaining wall design is crucial for modern construction works that requires stabilization for modif...
Retaining slope structures are increasingly considered in geotechnical engineering projects due to e...
Uncertainties in geotechnical Engineering is inevitable. The soil properties may disperse within a s...
Abstract: Practical reliability-based designs are illustrated for a footing foundation and an anchor...
Geotechnical design codes have been migrating from the traditional allowable stress design towards l...
10.1061/(ASCE)GT.1943-5606.0000061Journal of Geotechnical and Geoenvironmental Engineering1355616-62