Publikasjoner
- Experimental and numerical study on hydrogen-induced failure of X65 pipeline steel
- Embrittlement, degradation, and loss prevention of hydrogen pipelines
- Assessing fracture toughness of vintage and modern X65 pipeline steels under in situ electrochemical hydrogen charging using advanced testing methodology
- Materials for Hydrogen Storage and Transport: Implications for Risk-Based Inspection
- FIB-SEM investigation and uniaxial compression of flexible graphite Les publikasjonen
- A review on hydrogen embrittlement and risk-based inspection of hydrogen technologies
- Toward Risk-based Inspection of Hydrogen Technologies: a Methodology for the Calculation of the Damage Factor of Hydrogen Embrittlement Les publikasjonen
- Experimental characterization of cyclic behaviour of pure lead: Temperature sensitivity and strain-rate effects Les publikasjonen
- Lessons learned from HIAD 2.0: Inspection and maintenance to avoid hydrogen-induced material failures
- Digital Image Correlation Technique to Aid Monotonic and Cyclic Testing in a Noisy Environment during In Situ Electrochemical Hydrogen Charging Les publikasjonen
Annen formidling
- Evaluation of the Factors Determining Hydrogen Embrittlement in Pipeline Steels: An Artificial Intelligence Approach
- Calculation of the Damage Factor for the Hydrogen-Enhanced Fatigue in the RBI Framework
- Mechanical Performance Assessment of Subsea Pipeline Base Metals for Hydrogen Transport
- Effect of hydrogen on mechanical performances - results from the HyLINE project
- Hydrogen embrittlement in subsea pipelines - From natural gas to hydrogen gas transport
- Hydrogen embrittlement assessment of pipeline materials through macro and micro mechanical tensile testing
- Mechanical performance of subsea pipeline steels for hydrogen transport application
- A modelling framework unifying hydrogen enhanced plasticity and decohesion
- A predictive model unifying hydrogen enhanced plasticity and decohesion
- A modelling framework unifying hydrogen enhanced plasticity and decohesion