Damage detection in the composite wind turbine blade for bridge applicationsRead MoreDamage detection in the composite wind turbine blade for bridge applicationsStrain sensing and crack detection during simulation of column failureRead MoreStrain sensing and crack detection during simulation of column failureConcrete truck scale platforms: strain and crack analysis from hardening to loadingRead MoreConcrete truck scale platforms: strain and crack analysis from hardening to loadingConcrete slab strengthened with FRP composites: strains & cracksRead MoreConcrete slab strengthened with FRP composites: strains & cracksConcrete cylinders – mechanical strains under laboratory conditionsRead MoreConcrete cylinders – mechanical strains under laboratory conditionsAnchorage 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
Damage detection in the composite wind turbine blade for bridge applicationsRead MoreDamage detection in the composite wind turbine blade for bridge applications
Strain sensing and crack detection during simulation of column failureRead MoreStrain sensing and crack detection during simulation of column failure
Concrete truck scale platforms: strain and crack analysis from hardening to loadingRead MoreConcrete truck scale platforms: strain and crack analysis from hardening to loading
Concrete slab strengthened with FRP composites: strains & cracksRead MoreConcrete slab strengthened with FRP composites: strains & cracks
Concrete cylinders – mechanical strains under laboratory conditionsRead MoreConcrete cylinders – mechanical strains under laboratory conditions
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