Materials oscilloscope

A materials oscilloscope is a time-resolved synchrotron high-energy X-ray technique to study rapid phase composition and microstructural related changes in a polycrystalline sample.[1][better source needed] Such device has been developed for in-situ studies of specimens undergoing physical thermo-mechanical simulation.[2][3]

  1. ^ Klaus-Dieter Liss: "Towards the Materials Oscilloscope: In-Situ, Real-time Diffraction on Metals Under Thermo-Mechanical Deformation", TMS-2015, http://www.programmaster.org/PM/PM.nsf/ViewSessionSheets?OpenAgent&ParentUNID=4AE20368ED00DE3585257D3B0011C714
  2. ^ Liss, K.-D. (2010). "Thermo-mechanical processing in a synchrotron beam - from simple metals to multiphase alloys and intermetallics". World Journal of Engineering. 7 (Suppl 2): 438. CiteSeerX 10.1.1.421.4956.
  3. ^ Liss, Klaus-Dieter; Yan, Kun (2010). "Thermo-mechanical processing in a synchrotron beam". Materials Science and Engineering: A. 528: 11–27. doi:10.1016/j.msea.2010.06.017.