The consortium partners collaborated to advance the prototype stage of the technology outcome from the EC-funded project “CreepTest” and to develop a novel ultrasonic testing system with enhanced detection and semi-quantitative analysis/categorization capability for subsurface creep damage at early stage in steel components operating at elevated conditions in thermal power generation industries. This project (CreepUT) leverages the broad and deep experience of project partners in their respective domain of technology innovation, software & product development, validation, in-field implementation, product commercialization and global reach to the target industry segment. The motivation for this project lies in the success of CreepTest project, customer focussed development and within the strength of consortium partners to address an unmet need for assessment of subsurface creep deterioration at early stage to support safe, uninterrupted and economic operation of existing and future power plants aligned with stringent environment protection regulations.
CreepUT is an ultrasonic scanner designed for early detection of creep damage in power plant piping. It is designed specifically for scanning of critical welds susceptible to creep damage. Conventionally, these welds have been tested with metallographic replication, with detection limited to surface damage. The system provides complementary volumetric coverage, enabling early stage, subsurface creep damage to be detected for the first time. This is achieved using a high frequency ultrasonic transducer powered by bespoke electronics. The system is controlled by dedicated software and driven by stepper motors which provide high-precision, automatic scanning. The CreepUT scanner is designed to be used by NDT personnel who have previous experience with ultrasonic testing and an understanding of ultrasonic signal interpretation.