The highest road embankments in Poland – distributed temperature sensing (DTS)WeiterlesenThe highest road embankments in Poland – distributed temperature sensing (DTS)Strains in composite reinforcement at the base of a road embankmentWeiterlesenStrains in composite reinforcement at the base of a road embankmentStrains and displacements in a new type of slurry wall: research field (2)WeiterlesenStrains and displacements in a new type of slurry wall: research field (2)Strains and displacements at the base of a road embankmentWeiterlesenStrains and displacements at the base of a road embankmentDisplacements of a road embankment above the strengthened substrateWeiterlesenDisplacements of a road embankment above the strengthened substrateStrains and cracks in a new type of slurry wall: research field (1)WeiterlesenStrains and cracks in a new type of slurry wall: research field (1)Damage detection in the composite wind turbine blade for bridge applicationsWeiterlesenDamage detection in the composite wind turbine blade for bridge applicationsStrain and shape measurements in composite pipelinesWeiterlesenStrain and shape measurements in composite pipelinesStrain and displacement monitoring inside a road structureWeiterlesenStrain and displacement monitoring inside a road structureSmart composite bridge panel for strain and shape sensingWeiterlesenSmart composite bridge panel for strain and shape sensingPEBSTER (5×5 m): strains and displacements in piled embankment with a steel meshWeiterlesenPEBSTER (5×5 m): strains and displacements in piled embankment with a steel meshPEBSTER (1×1 m): strains and displacements in piled embankment with a steel meshWeiterlesenPEBSTER (1×1 m): strains and displacements in piled embankment with a steel mesh zurück1 2
The highest road embankments in Poland – distributed temperature sensing (DTS)WeiterlesenThe highest road embankments in Poland – distributed temperature sensing (DTS)
Strains in composite reinforcement at the base of a road embankmentWeiterlesenStrains in composite reinforcement at the base of a road embankment
Strains and displacements in a new type of slurry wall: research field (2)WeiterlesenStrains and displacements in a new type of slurry wall: research field (2)
Strains and displacements at the base of a road embankmentWeiterlesenStrains and displacements at the base of a road embankment
Displacements of a road embankment above the strengthened substrateWeiterlesenDisplacements of a road embankment above the strengthened substrate
Strains and cracks in a new type of slurry wall: research field (1)WeiterlesenStrains and cracks in a new type of slurry wall: research field (1)
Damage detection in the composite wind turbine blade for bridge applicationsWeiterlesenDamage detection in the composite wind turbine blade for bridge applications
Strain and shape measurements in composite pipelinesWeiterlesenStrain and shape measurements in composite pipelines
Strain and displacement monitoring inside a road structureWeiterlesenStrain and displacement monitoring inside a road structure
Smart composite bridge panel for strain and shape sensingWeiterlesenSmart composite bridge panel for strain and shape sensing
PEBSTER (5×5 m): strains and displacements in piled embankment with a steel meshWeiterlesenPEBSTER (5×5 m): strains and displacements in piled embankment with a steel mesh
PEBSTER (1×1 m): strains and displacements in piled embankment with a steel meshWeiterlesenPEBSTER (1×1 m): strains and displacements in piled embankment with a steel mesh