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clayBand
The Mobilisable Strength Design (MSD) method is a new design method based on the theory of plasticity and the concept of “mobilisable soil strength”. This method offers a simple unified design methodology, which can satisfy both safety and serviceability a single step of calculation. The possible use of the MSD method in the design of retaining walls supporting excavations in clay is explored and illustrated
In urban areas of the United Kingdom increased use is being made of embedded retaining walls both fo...
The conventional design of retaining walls is typically based on ultimate limit state calculations w...
Geotechnical design is carried out according to one of two main methods; the Working Stress Design (...
The Mobilisable Strength Design (MSD) method is a new design approach conceived with the framework o...
The writers introduce a design approach for braced excavations based directly on the data of careful...
Multibench retaining systems can be used in large area excavations for the purpose of eliminating ho...
This note presents the application of the mobilisable strength design (MSD) method to the monitoring...
Two case histories on deep excavation of marine clay are used to study the use of a decision-making ...
Design of retaining walls in clay is typically based on ultimate limit state calculations to preven...
The discusser read with interest the paper by Diakoumi & Powrie (2013) proposing an interesting meth...
The population in Sweden and around the world is increasing. When population increases, cities becom...
A mechanically stabilized earth (MSE) retaining wall is a type of soil retaining structure which uti...
Review of the different methods used in current engineering practice and codes of practice for the d...
The paper focuses on the development of Displacement Based-Design (DBD) methods in the a-seismic des...
Mechanically stabilized earth (MSE) is aconstruction technique that alternateslayers of compacted so...
In urban areas of the United Kingdom increased use is being made of embedded retaining walls both fo...
The conventional design of retaining walls is typically based on ultimate limit state calculations w...
Geotechnical design is carried out according to one of two main methods; the Working Stress Design (...
The Mobilisable Strength Design (MSD) method is a new design approach conceived with the framework o...
The writers introduce a design approach for braced excavations based directly on the data of careful...
Multibench retaining systems can be used in large area excavations for the purpose of eliminating ho...
This note presents the application of the mobilisable strength design (MSD) method to the monitoring...
Two case histories on deep excavation of marine clay are used to study the use of a decision-making ...
Design of retaining walls in clay is typically based on ultimate limit state calculations to preven...
The discusser read with interest the paper by Diakoumi & Powrie (2013) proposing an interesting meth...
The population in Sweden and around the world is increasing. When population increases, cities becom...
A mechanically stabilized earth (MSE) retaining wall is a type of soil retaining structure which uti...
Review of the different methods used in current engineering practice and codes of practice for the d...
The paper focuses on the development of Displacement Based-Design (DBD) methods in the a-seismic des...
Mechanically stabilized earth (MSE) is aconstruction technique that alternateslayers of compacted so...
In urban areas of the United Kingdom increased use is being made of embedded retaining walls both fo...
The conventional design of retaining walls is typically based on ultimate limit state calculations w...
Geotechnical design is carried out according to one of two main methods; the Working Stress Design (...
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