Angle of mobilized friction and dilation curves for dense and loose samples.
- Ehsan Izadi (3130434)
- Adam Bezuijen (5123039)
Publication date
April 2018
DOIAbstract
<p>Angle of mobilized friction and dilation curves for dense and loose samples.</p
<p>Angle of mobilized friction and dilation curves for dense and loose samples.</p
This article discusses the possibility of using dilatometer tests (DMT) together with in situ seismi...
Stress–strain curves pertaining to marble that is subjected to different strain rates.</p
Roman numerals represent the microscopic group, letters A and B represent the sample groups (posteri...
<p>Force-displacement curves for all the compositions of dextran/gelatin hydrogels.</p
Energy dissipation displacement curves of specimens with different concentrations of salt solution.<...
Numbers represent the macroscopic group; letters A and B represent the sample groups (posterior and ...
Energy dissipation displacement curves of specimens strengthened with SMA in different concentration...
Vertical reaction curve of the rear axle tire with a friction coefficient of 0.8.</p
The postulate that the constant volume friction angle Φ[sub cv] of a granular material is unique is ...
Stress-strain curves obtained by performing compression tests. The bold curves correspond to the ave...
<p>Deformed shape and orientation at 50% tensile strain (a) layout of a selected sample at 50% exten...
Internal angle of friction which is also termed as friction angle of granular materials is a very im...
The relationships between the friction angle, dilation angle, density and pressure in a granular mat...
Tensile force per unit width vs stretch curve for the five studied fabrics (in warp direction).</p
<p>Amplification curves (A) and melting curves (B) of partial experimental strains.</p
This article discusses the possibility of using dilatometer tests (DMT) together with in situ seismi...
Stress–strain curves pertaining to marble that is subjected to different strain rates.</p
Roman numerals represent the microscopic group, letters A and B represent the sample groups (posteri...
<p>Force-displacement curves for all the compositions of dextran/gelatin hydrogels.</p
Energy dissipation displacement curves of specimens with different concentrations of salt solution.<...
Numbers represent the macroscopic group; letters A and B represent the sample groups (posterior and ...
Energy dissipation displacement curves of specimens strengthened with SMA in different concentration...
Vertical reaction curve of the rear axle tire with a friction coefficient of 0.8.</p
The postulate that the constant volume friction angle Φ[sub cv] of a granular material is unique is ...
Stress-strain curves obtained by performing compression tests. The bold curves correspond to the ave...
<p>Deformed shape and orientation at 50% tensile strain (a) layout of a selected sample at 50% exten...
Internal angle of friction which is also termed as friction angle of granular materials is a very im...
The relationships between the friction angle, dilation angle, density and pressure in a granular mat...
Tensile force per unit width vs stretch curve for the five studied fabrics (in warp direction).</p
<p>Amplification curves (A) and melting curves (B) of partial experimental strains.</p
This article discusses the possibility of using dilatometer tests (DMT) together with in situ seismi...
Stress–strain curves pertaining to marble that is subjected to different strain rates.</p
Roman numerals represent the microscopic group, letters A and B represent the sample groups (posteri...
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