First bridge in Germany with embedded strain and crack distributed sensorsWeiterlesenFirst bridge in Germany with embedded strain and crack distributed sensorsEpsilonRebars as the nervous system for the health of a hybrid footbridgeWeiterlesenEpsilonRebars as the nervous system for the health of a hybrid footbridgeDistributed strain sensing in the concrete slab of a truss bridgeWeiterlesenDistributed strain sensing in the concrete slab of a truss bridgeThe 2nd bridge in Germany with embedded strain and crack distributed sensorsWeiterlesenThe 2nd bridge in Germany with embedded strain and crack distributed sensorsStrains and displacements in asphalt layers: dynamic load testsWeiterlesenStrains and displacements in asphalt layers: dynamic load testsSteel-concrete railway bridge: strains and cracks during load testsWeiterlesenSteel-concrete railway bridge: strains and cracks during load tests
First bridge in Germany with embedded strain and crack distributed sensorsWeiterlesenFirst bridge in Germany with embedded strain and crack distributed sensors
EpsilonRebars as the nervous system for the health of a hybrid footbridgeWeiterlesenEpsilonRebars as the nervous system for the health of a hybrid footbridge
Distributed strain sensing in the concrete slab of a truss bridgeWeiterlesenDistributed strain sensing in the concrete slab of a truss bridge
The 2nd bridge in Germany with embedded strain and crack distributed sensorsWeiterlesenThe 2nd bridge in Germany with embedded strain and crack distributed sensors
Strains and displacements in asphalt layers: dynamic load testsWeiterlesenStrains and displacements in asphalt layers: dynamic load tests
Steel-concrete railway bridge: strains and cracks during load testsWeiterlesenSteel-concrete railway bridge: strains and cracks during load tests