I study strain and stress in polycrystalline materials by means of X-ray diffraction. More specifically I develop methods and software to measure the three-dimensional changes in strain and stress in situ, thus during processes such as deformation or crack propagation. The experiments are carried out at international synchrotron sources, and the results are used to verify and optimise theoretical material models.



1996 - 2002 M.Sc. - University of Copenhagen
2003 - 2007 Ph.D. - DTU Chemistry

Professional experience

2008 - 2010 Postdoc (AFM) - Risø DTU, Materials Research Division
2010 - 2011 Scientist (AFM) - Risø DTU, Materials Research Division
2012 - Scientist (NEXMAP) - DTU Physics, Neutrons and X-rays for materials physics


Three-Dimensional X-ray Diffraction (3DXRD) Microscopy; instrumentation, software, data analysis

In-situ grain resolved stress measurement; electric poling in piezoceramics, inception and growths of twins and cracks

View graph of relations
  • Risoe International Symposium on Materials Science. Proceedings

    ISSNs: 0907-0079

    Forskningscenter Risoe Materialeforskning, Denmark

    ISI indexed (2013): ISI indexed no, BFI (2015): BFI-level 1

    Central database


  • Acta Materialia

    ISSNs: 1359-6454, 1359-6454

    Additional searchable ISSN (Electronic): 1873-2453

    Pergamon, United Kingdom

    ISI indexed (2013): ISI indexed yes, BFI (2015): BFI-level 2, Scopus rating (2015): 3.683 2.861

    Central database


  • Scripta Materialia

    ISSNs: 1359-6462, 1359-6462

    Additional searchable ISSN (Electronic): 1872-8456

    Pergamon, United Kingdom

    ISI indexed (2013): ISI indexed yes, BFI (2015): BFI-level 2, Scopus rating (2015): 2.375 1.83

    Central database


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