Measurements of a railway line above the substrate strengthened with slurry wallsWeiterlesenMeasurements of a railway line above the substrate strengthened with slurry wallsDistributes strains in fibre-reinforced concrete mixed with the groundWeiterlesenDistributes strains in fibre-reinforced concrete mixed with the groundThermal-shrinkage strains of GRP composite pipe in the laboratoryWeiterlesenThermal-shrinkage strains of GRP composite pipe in the laboratoryStrains 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 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
Measurements of a railway line above the substrate strengthened with slurry wallsWeiterlesenMeasurements of a railway line above the substrate strengthened with slurry walls
Distributes strains in fibre-reinforced concrete mixed with the groundWeiterlesenDistributes strains in fibre-reinforced concrete mixed with the ground
Thermal-shrinkage strains of GRP composite pipe in the laboratoryWeiterlesenThermal-shrinkage strains of GRP composite pipe in the laboratory
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 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