Abstract Details
(2020) Thermal Annealing of Radiation-Damaged allanite-(Ce): Mechanical and Structural Properties
Reissner CE, Reissner M, Bismayer U, Navrotsky A, Paulmann C, Pöllmann H & Beirau T
https://doi.org/10.46427/gold2020.2186
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08b: Plenary Hall, Thursday 25th June 08:03 - 08:06
Claudia E. Reissner
View abstracts at 2 conferences in series
Michael Reissner View abstracts at 2 conferences in series
Ulrich Bismayer View abstracts at 4 conferences in series
Alexandra Navrotsky View abstracts at 17 conferences in series
Carsten Paulmann View abstracts at 3 conferences in series
Herbert Pöllmann View abstracts at 2 conferences in series
Tobias Beirau View abstracts at 2 conferences in series
Michael Reissner View abstracts at 2 conferences in series
Ulrich Bismayer View abstracts at 4 conferences in series
Alexandra Navrotsky View abstracts at 17 conferences in series
Carsten Paulmann View abstracts at 3 conferences in series
Herbert Pöllmann View abstracts at 2 conferences in series
Tobias Beirau View abstracts at 2 conferences in series
Listed below are questions that have been submitted by the community that the author will try and cover in their presentation. To submit a question, ensure you are signed in to the website. Authors or session conveners approve questions before they are displayed here.
Submitted by Laura Kennell-Morrison on Thursday 25th June 01:02
What are the implications of this work to the nuclear industry (i.e., is the objective to understand potential damage to a proposed allanite waste form, as well as measures that can be taken to enhance long-term integrity)?
What are the implications of this work to the nuclear industry (i.e., is the objective to understand potential damage to a proposed allanite waste form, as well as measures that can be taken to enhance long-term integrity)?
Submitted by Xiaofeng Guo on Thursday 25th June 06:49
Very interesting work on the radition-induced damage recovery! I have two questions: i) so in the DSC signal, there is a small exo peak, perhaps associated with the recrystallization, have you integrated that to find out the reaction enthalpy? Perhaps also worth of comparing that of Fe(II) to Fe(III) oxidation; ii) how the Young's modulus of the annealed compares to the fully crystalline one (non-damaged).
Very interesting work on the radition-induced damage recovery! I have two questions: i) so in the DSC signal, there is a small exo peak, perhaps associated with the recrystallization, have you integrated that to find out the reaction enthalpy? Perhaps also worth of comparing that of Fe(II) to Fe(III) oxidation; ii) how the Young's modulus of the annealed compares to the fully crystalline one (non-damaged).
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