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Van Rooyen, Melody
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Publications (5/5 displayed)
- 2023Creep damage parameter extraction from ex-service 12% Cr steel using digital image correlation computed strain datacitations
- 2022A numerical approach for designing functionally stiff triply-periodic-minimal-surface structures
- 2022Creep deformation measurement of ex‐service 12% Cr steel over nonuniform stress fields using digital image correlationcitations
- 2021An Experimental Approach to the Application of Digital Image Correlation to Small Punch Creep Testingcitations
- 2020Measurement of creep deformation of ex-service 12% Cr steel using digital image correlationcitations
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article
Measurement of creep deformation of ex-service 12% Cr steel using digital image correlation
Abstract
<jats:p> The effective operation of ageing coal-fired power plants requires routine damage assessment of critical component materials throughout their service history. Traditional post-exposure mechanical testing typically requires large amounts of material for each testing condition. This study introduces an accelerated (high stress and temperature) creep testing technique that employs digital image correlation for strain measurement over a non-uniform temperature field generated by a thermomechanical tester. When applied to different ex-service (exposed to service conditions within a power plant) 12% Cr piping steels, multiple accelerated creep curves at temperatures ranging from 550°C to 600°C are measured from a single specimen for each material condition. Higher creep damage in the steel due to longer service exposure and higher void densities is revealed by shorter rupture times, faster creep rates and tertiary-dominated creep curves when compared to the lower creep damage state. Microstructural study via quantitative electron microscopy confirms the dislocation creep-driven growth of subgrains in the specimen gauge regions relative to the grips. Larger subgrains and a weakening of precipitate distributions for the high damage material were also noted. Digital image correlation–measured strains are in good agreement with traditional techniques of creep testing with standard extensometry. On a comparative basis, the technique is shown to be a plausible form of damage assessment of 12% Cr piping steels with varying levels of service exposure and serve as a suitable mechanical complement to the traditional void replica methodology. </jats:p>