Project Description


The long-term operation (LTO) of existing nuclear power plants (NPPs) has already been accepted in many countries as a strategic objective to ensure adequate supply of electricity over the coming decades. In order to estimate the remaining useful lifetime of NPP components, LTO requires reliable tools.

The objective of NOMAD is the development, demonstration and validation of a nondestructive evaluation (NDE) tool for the local and volumetric characterisation of the embrittlement in operational reactor pressure vessels (RPVs). In order to address these objectives, the following steps will be taken:

  • Development and demonstration of an NDE tool for the characterisation of RPV embrittlement, especially accounting for material heterogeneities and exceeding the existing information from surveillance programmes.
  • Extension of the existing database of RPV material degradation by adding correlations of mechanical, microstructural and NDE parameters as well as including quantification of reliability and uncertainty.
  • Application of the developed tool to cladded material resembling the actual RPV inspection scenario.

NOMAD takes into account the priorities of reactor operation, responding to stringent safety requirements from regulators, and seeks to foster convergence of nuclear safety approaches. The approach to be developed within NOMAD will deliver information complementary to and exceeding the information obtained by destructive tests of surveillance samples, which are currently assumed to represent the whole component and do not take into account possible local material variations. NOMAD aims to fulfil requirements for nuclear safety in the framework of assessment of lifetime operation. Thereby, it covers the specific challenge and scope of the call: Continually improving safety and reliability of Generation II and III reactors.


  • WP1: Description and delivery of the sample sets (including cladded material) and irradiation conditions, sample provision, microstructure characterisation and determination of the mechanical properties
  • WP2: Non-destructive materials characterisation (MC) and evaluation of the progression of the material properties
  • WP3: Advanced non-destructive evaluation tool for demonstration of materials characterisation
  • WP4: Application, Validation (Validation = proof of meeting the requirements regarding accuracy and performance; Application = demonstration and optimisation of the developed NDE-tool (WP3) under realistic conditions)
  • WP5: Management, Dissemination & Exploitation


The primary goals of NOMAD are:

  • Development and calibration of an extremely important NDE tool for the in-situ inspection of cladded RPV material, which can have microstructure heterogeneities.
  • Validation of the surveillance programs with respect to the actual vessel under LTO conditions (equivalence of radiation damage accumulation).

In order to reach these goals, multiple NDE methods will be applied to multiple scales of samples in neutron-irradiated condition. The results will be compared and combined across methods, samples and degradation parameters in order to define a hybrid approach and finally demonstrate it in a modular way. Non-irradiated material with different microstructures will be used for sensor optimisation without radiation hazard.


1 June 2017 – 31 May 2021
4 years




Technical Project Leader: 
Dr. Ing. Madalina Rabung
(Fraunhofer Institute for Nondestructive Testing IZFP)

European Research and Project Office GmbH (Eurice)
Britta Theobald-Loeffler


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This project has received funding from the Euratom H2020 programme 2014-2018 under grant agreement No 755330.