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Carbon-vacancy interaction controls lattice damage recovery in iron

(2014) SCRIPTA MATERIALIA. 86. p.9-12
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Keywords
ALPHA-IRON, DYNAMICS, POSITRON-ANNIHILATION, Recovery, Lattice damage, Interstitial carbon, Iron, ELECTRON-IRRADIATION, Annealing

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Citation

Please use this url to cite or link to this publication:

Chicago
Terentyev, D, K Heinola, Alexander Bakaev, and EE Zhurkin. 2014. “Carbon-vacancy Interaction Controls Lattice Damage Recovery in Iron.” Scripta Materialia 86: 9–12.
APA
Terentyev, D, Heinola, K., Bakaev, A., & Zhurkin, E. (2014). Carbon-vacancy interaction controls lattice damage recovery in iron. SCRIPTA MATERIALIA, 86, 9–12.
Vancouver
1.
Terentyev D, Heinola K, Bakaev A, Zhurkin E. Carbon-vacancy interaction controls lattice damage recovery in iron. SCRIPTA MATERIALIA. 2014;86:9–12.
MLA
Terentyev, D, K Heinola, Alexander Bakaev, et al. “Carbon-vacancy Interaction Controls Lattice Damage Recovery in Iron.” SCRIPTA MATERIALIA 86 (2014): 9–12. Print.
@article{5712880,
  author       = {Terentyev, D and Heinola, K and Bakaev, Alexander and Zhurkin, EE},
  issn         = {1359-6462},
  journal      = {SCRIPTA MATERIALIA},
  keyword      = {ALPHA-IRON,DYNAMICS,POSITRON-ANNIHILATION,Recovery,Lattice damage,Interstitial carbon,Iron,ELECTRON-IRRADIATION,Annealing},
  language     = {eng},
  pages        = {9--12},
  title        = {Carbon-vacancy interaction controls lattice damage recovery in iron},
  url          = {http://dx.doi.org/10.1016/j.scriptamat.2014.04.003},
  volume       = {86},
  year         = {2014},
}

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