Filtern
Dokumenttyp
- Beitrag zu einem Tagungsband (2) (entfernen)
Sprache
- Englisch (2)
Referierte Publikation
- nein (2) (entfernen)
Schlagworte
- Shrinkage (2) (entfernen)
Organisationseinheit der BAM
Reinforced concrete buildings are frequently damaged by cracks, spalling and corroded
reinforcement bars. The present article focuses on the damage analysis of one of the first
buildings in Berlin that was constructed using reinforced lightweight concrete, which makes it
historically important. The compressive strength, carbonation depth, location and diameter of
reinforcement bars as well as moisture and salt profiles were determined. The carbonationinduced corrosion of the reinforcement bars represented the main damage of the building.
Certified repair mortars with lightweight aggregates (LWA) do not exist on the German
market. Therefore, an appropriate repair mortar was developed in accordance with DIN EN
1504 and the German guideline for the repair and protection of concrete structures (RL-SIB).
On the one hand, historic preservation requirements, such as: colour of the mortar,
possibilities of surface patterning, maximum preservation of the original substance and
reversibility of any Intervention must be met. On the other hand, technical requirements of the
relevant Standards must be achieved. The developed mix was designed to resist the identified
causes of deterioration. Thermal strains within the repair mortar and between the repair
mortar and the Substrate influence the crack formation and thus the durability. Therefore,
special attention was paid to the bonding and shrinking behaviour of the concrete repair
System. By using polymers, both hardened mortar properties and durability were influenced
positively.
Alkali-activated slag materials are known for their high Chloride penetration resistance. This makes them potentially applicable as repair systems for damaged steel-reinforced concrete structures, which are exposed to chloride attack. For this purpose, the influence of the activator composition, i.e. the SiO2 and Na2O concentration of the alkaline solution on a) the compressive strength, b) shrinkage and mass change and c) the resistance against chloride penetration of four alkali-activated slag mortars (AASM) were studied. An ordinary Portland cement-based mortar was used as the reference sample. Increasing SiO2 and Na2O concentrations increased the strength, shrinkage and mass loss of the AASMs. The resistance of the mortars against chloride penetration was evaluated using the non-steady-state migration coefficient Dnssm obtained from NT BUILD 492. The results indicate that the Dnssm is related to differences in the pore solution of the AASMs rather than to differences in their microstructure. An upcoming study of the authors is going to evaluate this hypothesis by the accelerated chloride penetration (diffusion) test.