Materials for DEMO and reactor applications—boundary conditions and new concepts

Coenen, J. W.; Pintsuk, G.; Du, J.; Weber, Th; Linsmeier, Ch; You, J-H; Engels, J.; Jasper, B.; Hoeschen, T.; Terra, A.; Wegener, T.; Aumann, M.; Rieth, M.; Litnovsky, A.; Linke, J.; Antusch, S.; Neu, R.; Unterberg, B.; Biel, W.; Houben, A.; Koch, F.; Reiser, J.; Rasinski, M.; Riesch, J.; Heuer, S.; Mao, Y.

doi:10.1088/0031-8949/2016/T167/014002

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@ARTICLE{Coenen:837693,
      author       = {Coenen, J. W. and Antusch, S. and Aumann, M. and Biel, W.
                      and Du, J. and Engels, J. and Heuer, S. and Houben, A. and
                      Hoeschen, T. and Jasper, B. and Koch, F. and Linke, J. and
                      Litnovsky, A. and Mao, Y. and Neu, R. and Pintsuk, G. and
                      Riesch, J. and Rasinski, M. and Reiser, J. and Rieth, M. and
                      Terra, A. and Unterberg, B. and Weber, Th and Wegener, T.
                      and You, J-H and Linsmeier, Ch},
      title        = {{M}aterials for {DEMO} and reactor applications—boundary
                      conditions and new concepts},
      journal      = {Physica scripta},
      volume       = {T167},
      issn         = {1402-4896},
      address      = {Bristol},
      publisher    = {IoP Publ.},
      reportid     = {FZJ-2017-06554},
      pages        = {014002},
      year         = {2016},
      abstract     = {DEMO is the name for the first stage prototype fusion
                      reactor considered to be the next step after ITER towards
                      realizing fusion. For the realization of fusion energy
                      especially, materials questions pose a significant challenge
                      already today. Heat, particle and neutron loads are a
                      significant problem to material lifetime when extrapolating
                      to DEMO. For many of the issues faced, advanced materials
                      solutions are under discussion or already under development.
                      In particular, components such as the first wall and the
                      divertor of the reactor can benefit from introducing new
                      approaches such as composites or new alloys into the
                      discussion. Cracking, oxidation as well as fuel management
                      are driving issues when deciding for new materials. Here
                      ${{\rm{W}}}_{{\rm{f}}}/{\rm{W}}$ composites as well as
                      strengthened CuCrZr components together with oxidation
                      resilient tungsten alloys allow the step towards a fusion
                      reactor. In addition, neutron induced effects such as
                      transmutation, embrittlement and after-heat and activation
                      are essential. Therefore, when designing a component an
                      approach taking into account all aspects is required.},
      cin          = {IEK-2 / IEK-4},
      ddc          = {530},
      cid          = {I:(DE-Juel1)IEK-2-20101013 / I:(DE-Juel1)IEK-4-20101013},
      pnm          = {174 - Plasma-Wall-Interaction (POF3-174) / HITEC -
                      Helmholtz Interdisciplinary Doctoral Training in Energy and
                      Climate Research (HITEC) (HITEC-20170406)},
      pid          = {G:(DE-HGF)POF3-174 / G:(DE-Juel1)HITEC-20170406},
      typ          = {PUB:(DE-HGF)16},
      doi          = {10.1088/0031-8949/2016/T167/014002},
      url          = {https://juser.fz-juelich.de/record/837693},
}

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