Max-Planck-Institut für Intelligente Systeme


Wissenschaftliche Veröffentlichungen

ab 2011: MPI für Intelligente Systeme
2010 und älter: MPI für Metallforschung

Zeitschriftenartikel (4824)

  1. 2000
    Zha, F.-X.; Czerw, R.; Carroll, D. L.; Kohler-Redlich, P.; Wei, B.-Q.; Loiseau, A.; Roth, S.: Scanning tunneling microscopy of chromium-filled carbon nanotubes: Tip effects and related topographic features. Physical Review B 61, S. 4884 - 4889 (2000)
  2. Zhang, L. D.; Meng, G. W.; Phillipp, F.: Synthesis and characterization of nanowires and nanocables. Materials Science and Engineering A 286, S. 34 - 38 (2000)
  3. Zhang, Y.; Phillipp, F.; Meng, G. W.; Zhang, L. D.; Ye, C. H.: Photoluminescence of mesoporous silica molecular sieves. Journal of Applied Physics 88, S. 2169 - 2171 (2000)
  4. Zhang, D.; Dehm, G.; Clemens, H.: On the microstructural evolution and phase transformation in a high niobium containing γ-TiAl alloy. Zeitschrift für Metallkunde 91, S. 950 - 956 (2000)
  5. Zhang, J.; Kleinschroth, I.; Cuevas, F.; Cheng, Z. H.; Kronmüller, H.: Effect of additives on the structure and magnetic properties of 1:7-Type Sm2Fe15Ga2C3 permanent magnets. Journal of Applied Physics 88, S. 6618 - 6622 (2000)
  6. Zhang, D.; Dehm, G.; Clemens, H.: Effect of heat treatments and hot-isostatic pressing on phase transformations and microstructure in a β/B2 containing γ-TiAl based alloy. Scripta Materialia 42, S. 1065 - 1070 (2000)
  7. Zhang, D. Z.; Kopold, P.; Güther, V.; Clemens, H.: Influence of heat treatments on colony size and lamellar spacing in a Ti-46Al-2Cr-2Mo-0.25Si-0-3B alloy. Zeitschrift für Metallkunde 91 (3), S. 206 - 210 (2000)
  8. Zieba, P.; Gust, W.: AEM of the solute redistribution during discontinuous dissolution. Mikrochimical Acta 132, S. 295 - 299 (2000)
  9. Zieba, P.; Gust, W.: Classification of the solute concentration profiles in the discontinuous solid state phase transformations. Zeitschrift für Metallkunde 91, S. 532 - 543 (2000)
  10. Zimmermann, A.; Fuller, E. R.; Rödel, J.: Computer simulation of residual stress distribution and microcracking due to thermal expansion anisotropy. Materials Science Forum 347-349, S. 211 - 216 (2000)
  11. Zimmermann, A.; Hoffman, M.; Rödel, J.: Fracture mode of alumina/silicon carbide nanocomposites. Journal of Materials Research 15, S. 107 - 114 (2000)
  12. Zinkevich, M.; Mattern, N.; Seifert, H. J.: Reassessment of the Fe-Gd (Iron-Gadolinium) system. Journal of Phase Equilibria 21, S. 385 - 394 (2000)
  13. de Kroon, A. P.; Gstrein, F.; Schäfer, G. W.; Aldinger, F.: Ionic conductivity of dense K-β-Alumina ceramics: Microstructural dependence and the influence of phase transformations. Solid State Ionics 133, S. 107 - 120 (2000)
  14. de Oliveira, I. G.; Doria, M. M.; Brandt, E. H.: Solution of the anisotropic Ginzburg-Landau theory by the iterative method. Physica C 341-348, S. 1069 - 1070 (2000)
  15. van Lier, J.; Baretzky, B.; Zalar, A.; Mittemeijer, E. J.: Reactions in TiO2/Ti3Al and TiO2/TiAl bilayers: Application of target-factor analysis in auger electron spectroscopy. Surface and Interface Analysis 30, S. 124 - 129 (2000)
  16. 1999
    Chang, L.-S.; Rabkin, E.; Straumal, B.; Baretzky, B.; Gust, W.: Kinetics of the Bi segregation at grain boundaries in polycrystalline Cu. Materials Science Forum 294-296, S. 585 - 588 (1999)
  17. Han, W. Q.; Kohler-Redlich, P.; Ernst, F.; Rühle, M.: Formation of (BN)xCy and BN nanotubes filled with boron carbide nanowires. Chemistry of Materials 11, S. 3620 - 3623 (1999)
  18. Hofmann, S.: From depth resolution to depth resolution function: Refinement of the concept for delta layers, single layers and multilayers. Surface Interface Analysis 27, S. 825 - 834 (1999)
  19. Lejcek, P.; Paidar, V.; Hofmann, S.: Special [100] tilt grain boundaries in iron: A segregation study. Materials Science Forum 294-296, 106, S. 103 (1999)
  20. Pojtinger, A.; Lamparter, P.; Steeb, S.: Medium range structure of hydrogenated amorphous Ti84Si16. Zeitschrift für Naturforschung 54a, S. 699 - 703 (1999)
 
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