Plastic strains in steel anchorages: axial tension testRead MorePlastic strains in steel anchorages: axial tension testConcrete slab strengthened with FRP composites: strains & cracksRead MoreConcrete slab strengthened with FRP composites: strains & cracksPEBSTER (5×5 m): strains and displacements in piled embankment with a steel meshRead MorePEBSTER (5×5 m): strains and displacements in piled embankment with a steel meshConcrete giders with integrated distributed strain and shape monolithic sensorsRead MoreConcrete giders with integrated distributed strain and shape monolithic sensorsPEBSTER (1×1 m): strains and displacements in piled embankment with a steel meshRead MorePEBSTER (1×1 m): strains and displacements in piled embankment with a steel meshConcrete cylinders – mechanical strains under laboratory conditionsRead MoreConcrete cylinders – mechanical strains under laboratory conditionsCFA concrete column: strains & shape analysis during mechanical load testsRead MoreCFA concrete column: strains & shape analysis during mechanical load testsCable-stayed bridge with steel anchorage: detection of stress concentrationsRead MoreCable-stayed bridge with steel anchorage: detection of stress concentrationsMonolithic sensors vs. layered cables – direct comparison in concreteRead MoreMonolithic sensors vs. layered cables – direct comparison in concreteAnchorage zone: bi-directional analaysis of internal strain fieldRead MoreAnchorage zone: bi-directional analaysis of internal strain fieldAnchorage zone in a 57-year-old concrete girder: strain and crack detectionRead MoreAnchorage zone in a 57-year-old concrete girder: strain and crack detection“Concrete tomograph” – strain and temperature evolution at early stageRead More“Concrete tomograph” – strain and temperature evolution at early stage Prev1 2 3 4 5
Plastic strains in steel anchorages: axial tension testRead MorePlastic strains in steel anchorages: axial tension test
Concrete slab strengthened with FRP composites: strains & cracksRead MoreConcrete slab strengthened with FRP composites: strains & cracks
PEBSTER (5×5 m): strains and displacements in piled embankment with a steel meshRead MorePEBSTER (5×5 m): strains and displacements in piled embankment with a steel mesh
Concrete giders with integrated distributed strain and shape monolithic sensorsRead MoreConcrete giders with integrated distributed strain and shape monolithic sensors
PEBSTER (1×1 m): strains and displacements in piled embankment with a steel meshRead MorePEBSTER (1×1 m): strains and displacements in piled embankment with a steel mesh
Concrete cylinders – mechanical strains under laboratory conditionsRead MoreConcrete cylinders – mechanical strains under laboratory conditions
CFA concrete column: strains & shape analysis during mechanical load testsRead MoreCFA concrete column: strains & shape analysis during mechanical load tests
Cable-stayed bridge with steel anchorage: detection of stress concentrationsRead MoreCable-stayed bridge with steel anchorage: detection of stress concentrations
Monolithic sensors vs. layered cables – direct comparison in concreteRead MoreMonolithic sensors vs. layered cables – direct comparison in concrete
Anchorage zone: bi-directional analaysis of internal strain fieldRead MoreAnchorage zone: bi-directional analaysis of internal strain field
Anchorage zone in a 57-year-old concrete girder: strain and crack detectionRead MoreAnchorage zone in a 57-year-old concrete girder: strain and crack detection
“Concrete tomograph” – strain and temperature evolution at early stageRead More“Concrete tomograph” – strain and temperature evolution at early stage