Anfangsverformungs- und Alterungsverhalten von Dual-Phasen Stahl
Anfangsverformungs- und Alterungsverhalten von Dual-Phasen Stahl
Anfangsverformungs- und Alterungsverhalten von Dual-Phasen Stahl
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[12] Blavette, D., Cadel, E., Fraczkiewicz, A. <strong>und</strong> Menand, A.: Three-dimensional atomicscale<br />
imaging of impurity segregation to line defects, Science 286, (1999), S. 2317-2319.<br />
[13] Borst, G.: Determination of nitrogen and carbon interstitially dissolved in continouslyannealed<br />
steel sheets by means of a fully automatic torsional pendulum, Steel Research<br />
61, (1990), S. 121-130.<br />
[14] Bullough, R. <strong>und</strong> Newman, R. C.: The growth of impurity atmospheres aro<strong>und</strong> dislocations,<br />
Proc. Roy. Soc. London A266, (1962), S. 198-208.<br />
[15] Bullough, R. <strong>und</strong> Newman, R. C.: Impurity percipation on dislocations - a theory of<br />
strain ageing Proc. Roy. Soc. London A266, (1962), S. 209-221.<br />
[16] Cadel, E., Fraczkiewicz, A. <strong>und</strong> Blavette, D.: Atomic scale observation of Cottrell<br />
atmospheres in B-doped FeAl (B2) by 3D atom probe field ion microscopy, Mat. Sci.<br />
Eng. A A309-310, (2001), S. 32-37.<br />
[17] Chang, L., Barnard, S. J., <strong>und</strong> Smith G. D. W.: The segregation of carbon atoms to<br />
dislocations in low-carbon martensites: Studies by field ion microscopy and atom probe<br />
microanalysis in: F<strong>und</strong>amentals of ageing and tempering in bainitic and martensitic<br />
steel products, Krauss, G. <strong>und</strong> Repas, P. E. (Herausgeber), Iron and Steel Society,<br />
Warrendale, PA, USA, (1992), S. 19-28.<br />
[18] Chen, Q., Pawelski, O. <strong>und</strong> Kaspar, R.: Contribution to the deformation characteristics<br />
of dual-phase steels, Z. Metallk<strong>und</strong>e 76, (1985), S. 348-352.<br />
[19] Cochardt, A. W., Schoeck, G. <strong>und</strong> Wiedersich, H.: Interaction between dislocations<br />
and interstitial atoms in body-centered cubic metals, Acta Met. 3, (1955), S. 533-537.<br />
[20] Cottrell, A. H. <strong>und</strong> Bilby, B. A.: Dislocation theory of yielding and strain ageing of<br />
iron, Proc. Phys. Soc. London A62, (1949), S. 49-62.<br />
[21] Cottrell, A. H.: Dislocations and plastic flow in crystals, Oxford Univ. Press London,<br />
(1953)<br />
[22] Davies, R. G.: Influence of martensite composition and content on the properties of<br />
dual-phase steels, Met. Trans. A 9A, (1978), S. 671-679.<br />
[23] Davies, R. G. <strong>und</strong> Magee, C. L.: Physical metallurgy of automotive high strength<br />
steels in: Structure and properties of dual-phase steels, Kot, R. A. <strong>und</strong> Morris, J. W.<br />
(Herausgeber), AIME, New York, (1979), S. 1-19.<br />
[24] De, A. K., Soenen, B., De Cooman, B. C. <strong>und</strong> Vandeputte, S.: Carbon distribution<br />
between matrix, grain bo<strong>und</strong>aries and dislocations in ultra low carbone bake hardenable<br />
steels, 42. MWSP Conf. Proc., ISS 38, (2000), S. 595-606.<br />
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