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Literaturverzeichnis<br />
[2.4.15] B. R. Clark, F. B. Pickering: Precipitation Effects in Austenitic Stainless Steels<br />
Containing Titanium and Aluminium Additions; JISI; 1967; pp. 70-84.<br />
[2.4.16] K. A. Heck: The Time-Temperature-Transformation Behaviour of Alloy 706; in<br />
Superalloys 718, 625, 706 and Various Derivatives; Edited by E. A. Loria; The<br />
Minerals, Metals & Materials Society; 1994; pp. 393-404.<br />
[2.4.17] T. Shibata, Y. Sudoh, T. Takahashi, Y. Yoshino, T. Ishiguro: Effect of the<br />
Cooling Rate From Solution Treatment on Precipitation Behaviour and Mechanical<br />
Properties of Alloy 706; in Superalloys 718, 625, 706 and Various Derivatives;<br />
Edited by E. A. Loria; The Minerals, Metals & Materials Society; 1997;<br />
pp. 379-388.<br />
[2.4.18] C. Zener: Kinetics of the Decomposition of Austenite; Trans.AIME;1946;<br />
pp. 550-562.<br />
[2.4.19] D. Turnbull: Theory of Cellular Precipitation; Acta Met.; 1967; pp. 55-63.<br />
[2.4.20] W. Gruhl, D. Ammann: Über die Abhängigkeit der Korngrenzenausscheidung von<br />
der Orientierung der benachbarten Kristalle; Acta Met.; 1955; pp. 347-353.<br />
[2.4.21] W. C. Liu, Z. L. Chen, M. Yao: Effect of Cold Rolling on the Precipitation<br />
Behaviour of δ Phase in INCONEL 718; Met. Trans. A; 1999; pp. 31-40.<br />
[2.4.22] R. A. Fournelle, J. B. Clark: The Genesis of the Cellular Precipitation Reaction;<br />
Met. Trans. A; 1972; pp. 2757-2767.<br />
[2.4.23] S. C. Smith: Microstructure; Trans.A.S.M; 1953; pp. 556-575.<br />
[2.5.1] www.pro-physik.de<br />
[2.5.2] D. G. Pettifor: Electron Theory in Materials Modeling; Acta Materialia vol. 51-The<br />
Golden Jubilee Issue; Selected topics in Materials Science and Engineering: Past,<br />
Present and Future ; 2003; pp. 5649-5673.<br />
[2.5.3] J. C. Zhao, M. Henry: CALPHAD-Is it Ready for Superalloy Design?; Advanced<br />
engineering materials vol.7; 2002; pp. 501-508.<br />
[2.5.4] R. G. Barrows, J. B. Newkirk: A Modified System for Predicting σ Formation;<br />
Metallurgical Transaction vol. 3; 1972; pp. 2889-2893.<br />
[2.5.5] J. Z. Zhu, T. Wang, S. H. Zhou, Z. K. Liu, L. Q. Chen: Quantitative interface<br />
models for simulating microstructure evolution; Acta Materialia vol. 52; pp. 833-<br />
840.<br />
[2.5.6] J. O. Andersson, T. Helander, L. Höglund, P. Shi, B. Sundman: Thermo-Calc &<br />
DICTRA, computational tools for materials science; Calphad vol. 26; 2002;<br />
pp. 273-312.<br />
[2.5.7] L. Kaufman, H. Berstein: Computer Calculation of Phase Diagrams; Refractory<br />
Materials vol. 4; Academic Press; London 1970.<br />
[2.5.8] N. Saunders: Phase Diagram Calculations for Ni-Based Superalloys; in Superalloys<br />
1996, Edited by R. D. Kissinger et al; 1996; pp.101-110.<br />
[2.5.9] A. Prikhodovsky: Modellierung von Reifungsprozessen und Anwendung auf das<br />
Thixoforming; Dissertation an der RWTH Aachen; Fakultät für Bergbau;<br />
Hüttenwesen und Geowissenschaften des RWTH; 2002.<br />
[2.5.10] B. Sundman: SGTE (Scientific Group Thermodynamic Europe) solution database<br />
of Jap.; Division of Computational Thermodynamics; Royal Institute of Technology;<br />
S-10044 Stockholm E-mail:bosso@met.kth.se; 1994.<br />
[2.5.11] http://www.thermocalc.com/.<br />
[2.5.12] B. Sundman: Thermo-calc Users’ Guide; Stockholm Sweden;1999.<br />
[2.5.13] G. E. Fuchs, B. A. Boutwell: Modeling of the Partitioning and Phase<br />
Transformation of an As-cast Third Generation Single Crystal Ni-base Superalloy;<br />
Materials Sience and Engineering; 2002; pp. 72-79.<br />
[2.5.14] H. J. Penkalla: Phascalc- Bedienungshandbuch; Jülich Deutschland.<br />
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