Expertise
Contact person, expertise
Publications
- Field and laboratory investigations on condition assessment of ASR-affected structures Read the publication
- Alkali-silica reactions (ASR) in concrete dams – field survey, ND-testing and laboratory analyses Read the publication
- Classification and quantification of minor iron-sulfide concentrations in concrete aggregate using automated mineralogy Read the publication
- Laboratory versus field performance of ASR-affected concrete: state of the art and paths moving forward using European and North American guidelines
- Report of RILEM TC 301-ASR: relation between pore solution composition and ASR expansion Read the publication
- Changes in cement paste during accelerated mortar bar testing for pyrrhotite containing aggregate Read the publication
- State-of-the-art report – NLFEA of deteriorated concrete structures Read the publication
- Alkalis Released from Aggregates – Significance for Concrete Performance Testing
- Laboratory and field investigations of alkali-silica reaction prevention by supplementary cementitious materials: Influence of the free alkali loading Read the publication
- Changes in the cement paste due to pyrrhotite reaction during accelerated mortar bar testing
Other
- Structural Assessment of Norwegian Bridges affected by ASR
- Structural Assessment of Norwegian Bridges affected by ASR
- Magnetkis i betongtilslag. Status og testing. Konsekvenser for norsk regelverk?
- Laboratory vs field performance of AARaffected concrete. State of the art and paths moving forward using European and North American guidelines
- Alkalis Released from Aggregates – Significance for Concrete Performance Testing
- Changes in the cement paste due to pyrrhotite reaction during accelerated mortar bar testing
- Comparative evaluation of CEN standard test methods for the determination of the total sulfur content in concrete aggregates
- Assessment of Three Critically ASR-Deteriorated Bridges
- Assessment of Norwegian Bridges Affected by ASR
- Management and Extension of Service Life of infrastructures affected by Alkali‐silica reaction (MESLA)