The understanding of unsaturated soil mechanics principles is of interest to a wide spectrum of geotechnical problems associated with soils above water table and compacted soils. This paper describes the stress state variables and constitutive equations based on the unsaturated soil mechanics principles. In addition, the basic concepts for characterization of unsaturated soils and measurements of matric suction (or negative pore-water pressures) are also explained. The application of unsaturated soil mechanics theories is illustrated through the use of capillary barrier system for minimizing rain infiltration into residual soil slopes
Residual soils occur in most countries of the world but the greater areas and depths are normally fo...
After a brief review of a number of developments of unsaturated soil mechanics, the paper presents s...
The implementation of unsaturated soil mechanics into engineering practice is dependent, to a large ...
The understanding of unsaturated soil mechanics principles is of interest to a wide spectrum of geot...
Excessive rainfalls due to climatic changes can trigger an increase in rainfall-induced slope failur...
Rainfall-induced slope failures commonly occur in the unsaturated zone above groundwater table in ma...
Theories and formulations developed for the behaviour of unsaturated soils incorporate the behaviou...
Abstract: The implementation of unsaturated soil mechanics into geotechnical engineering practice re...
The majority of geoengineering applications occur in the unsaturated zone, which is in the near-surf...
An understanding of the mechanics of unsaturated geomaterials has become an important component of t...
The geotechnical engineering, among the problems related to water flow, is specifically interested i...
A practical science has not been fully developed for unsaturated soils for two main reasons. First, ...
The stability of geotechnical structures is often driven by the superficial layer of soils subject t...
Developments in the the mechanics of unsaturated soils are investigated in relation to current engin...
The last two to three decades have seen significant advances in the mechanics of unsaturated soils. ...
Residual soils occur in most countries of the world but the greater areas and depths are normally fo...
After a brief review of a number of developments of unsaturated soil mechanics, the paper presents s...
The implementation of unsaturated soil mechanics into engineering practice is dependent, to a large ...
The understanding of unsaturated soil mechanics principles is of interest to a wide spectrum of geot...
Excessive rainfalls due to climatic changes can trigger an increase in rainfall-induced slope failur...
Rainfall-induced slope failures commonly occur in the unsaturated zone above groundwater table in ma...
Theories and formulations developed for the behaviour of unsaturated soils incorporate the behaviou...
Abstract: The implementation of unsaturated soil mechanics into geotechnical engineering practice re...
The majority of geoengineering applications occur in the unsaturated zone, which is in the near-surf...
An understanding of the mechanics of unsaturated geomaterials has become an important component of t...
The geotechnical engineering, among the problems related to water flow, is specifically interested i...
A practical science has not been fully developed for unsaturated soils for two main reasons. First, ...
The stability of geotechnical structures is often driven by the superficial layer of soils subject t...
Developments in the the mechanics of unsaturated soils are investigated in relation to current engin...
The last two to three decades have seen significant advances in the mechanics of unsaturated soils. ...
Residual soils occur in most countries of the world but the greater areas and depths are normally fo...
After a brief review of a number of developments of unsaturated soil mechanics, the paper presents s...
The implementation of unsaturated soil mechanics into engineering practice is dependent, to a large ...