Steel girders during mechanical load tests: elastic and plastic strainsRead MoreSteel girders during mechanical load tests: elastic and plastic strainsSteel bridge girder as vertical displacement sensor for shape sensingRead MoreSteel bridge girder as vertical displacement sensor for shape sensingSmart FRP components for strain- based bridge health monitoringRead MoreSmart FRP components for strain- based bridge health monitoringSmart composite bridge panel for strain and shape sensingRead MoreSmart composite bridge panel for strain and shape sensingPlastic 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 & cracksCable-stayed bridge with steel anchorage: detection of stress concentrationsRead MoreCable-stayed bridge with steel anchorage: detection of stress concentrations Prev1 2
Steel girders during mechanical load tests: elastic and plastic strainsRead MoreSteel girders during mechanical load tests: elastic and plastic strains
Steel bridge girder as vertical displacement sensor for shape sensingRead MoreSteel bridge girder as vertical displacement sensor for shape sensing
Smart FRP components for strain- based bridge health monitoringRead MoreSmart FRP components for strain- based bridge health monitoring
Smart composite bridge panel for strain and shape sensingRead MoreSmart composite bridge panel for strain and shape sensing
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
Cable-stayed bridge with steel anchorage: detection of stress concentrationsRead MoreCable-stayed bridge with steel anchorage: detection of stress concentrations