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PUBLIKATIONEN Prof. Dr.-Ing. habil. L. Wagner 1991 43 L. Wagner, R. I. Jaffee and G. Lütjering: Influence of Microstructure and Texture on Fatigue Properties of Ti-6Al-4V Microstructure/Property Relationships in Titanium Aluminides and Alloys, TMS-AIME (1991) 521. 42 C. Andres, L. Wagner and G. Lütjering: Influence of Texture on HCF Strength and Creep Resistance in Ti-6242 Microstructure/Property Relationships in Titanium Aluminides and Alloys, TMS-AIME (1991) 579. 1990 41 H. Puschnik, J. Fladischer, G. Lütjering, L. Wagner and R. I. Jaffee: Advanced Structures for Large Turbine Blades, Titanium Products and Applications, TDA (1990) 437. 40 O. M. Ivasishin, P. E. Markovski, L. Wagner and G. Lütjering: Effect of Rapid Heating on Beta-Grain Size and Fatigue Properties of (Alpha + Beta) Titanium Alloys Titanium Products and Applications, TDA (1990) 99. 39 H. Puschnik, J. Fladischer, G. Lütjering, L. Wagner and R. I. Jaffee: Advanced Structures for Large Ti-6Al-4V Turbine Blades, Titanium and Aluminum, ITT (1990). 38 J. K. Gregory and L. Wagner: Microstructure and Crack Growth in the Titanium Alloy Ti-2.5 Cu, Fatigue 90, MCEP (1990) 191. 37 L. Wagner, G. Lütjering and R. I. Jaffee: Fatigue Behavior of Bi-Modal Microstructures in Ti-6Al-4V, Fatigue 90, MCEP (1990) 261. 36 L. Wagner and G. Lütjering: Influence of Surface Condition on Fatigue Strength, Fatigue 90, MCEP (1990) 323. 35 S. Saal, L. Wagner, G. Lütjering,L. Pillhöfer and M. A. Däubler: Effect of Cooling Rate on Creep and Low Cycle Fatigue Resistance in Ti-6242, Z. Metallkde. 90 (1990) 535. 34 G. Lütjering and L. Wagner: Microstructure and Fracture in (Alpha + Beta) Titanium Alloys, Gefüge und Bruch (1990) 435. 33 U. Tacke-Messing, L. Wagner and G. Lütjering: Influence of Microstructure on Propagation of Microcracks in Ti-6Al-4V, Gefüge und Bruch (1990) 199. 1989 32 G. Lütjering and L. Wagner: Optimization of Microstructure and Texture for Ti-6Al-4V Alloy Blades, Titanium Steam Turbine Blading, Pergamon Press (1989) 219. 31 L. Wagner and G. Lütjering: Influence of Surface Treatment on Fatigue Strength of Ti-6Al-4V, Titanium Steam Turbine Blading, Pergamon Press (1989) 233. 30 L. Wagner, G. Lütjering and V. Sedlácek: Fatigue Crack Growth Retardation in an Al-Alloy 2024-T3 in a Residual Compressive Stress Field, ICRS 2, Elsevier Applied Science (1989) 803. 1988 29 G. Lütjering and L. Wagner: Influence of Texture on Fatigue Properties of Titanium Alloys, Directional Properties of Materials, DGM (1988) 177. 28 H. Gray, L. Wagner and G. Lütjering: Influence of Surface Treatment on the Fatigue Behavior of Ti-Alloys at Room and Elevated Temperatures les editions de physique (1988) 1895. 27 L. Wagner and G. Lütjering: Propagation of Small Fatigue Cracks in Ti-Alloys, les editions de physique (1988) 345. 26 R. I. Jaffee, L. Wagner and G. Lütjering: The Effect of Cooling Rate from the Solution Anneal on the Structure and Properties of Ti-6Al-4V Alloy les editions de physique (1988) 1501. 25 G. Lütjering, A. Gysler and L. Wagner: Crack Propagation in Titanium Alloys, les editions de physique (1988) 71.
PUBLIKATIONEN Prof. Dr.-Ing. habil. L. Wagner 24 L. Wagner and G. Lütjering: Influence of Surface Treatment on Fatigue Resistance of Aircraft Alloys, Advances in Fatigue Science and Technology, Kluwer Academic Publishers (1989) 933. 1987 23 H. Gray, L. Wagner and G. Lütjering: Influence of Shot Peening Induced Surface Roughness, Residual Macrostresses and Dislocation Density on the Elevated Temperature HCF-Properties of Ti-Alloys Sixth Chinese National Conference on Titanium, Xi'an, China (1987). 22 L. Wagner and G. Lütjering: A Comparison of Short Crack Propagation in an Al-Alloy with Different Age-Hardening Conditions and Grain Sizes, Fatigue 87, EMAS (1987) 1819. 21 H. Gray, L. Wagner and G. Lütjering: Effect of Surface Layer Microstructures Modified through Shot Peening and Subsequent Heat Treatment on the Elevated Temperature Fatigue Behavior of Ti-Alloys, Shot Peening, DGM (1987) 467. 20 H. Gray, L. Wagner and G. Lütjering: Influence of Shot Peening Induced Surface Roughness, Residual Macrostresses and Dislocation Density on the Elevated Temperature HCF-Properties of Ti-Alloys Shot Peening, DGM (1987) 447. 19 M. A. Däubler, H. Gray, L. Wagner and G. Lütjering: Fatigue Behavior of High-Strength Titanium Alloys at Elevated Temperatures, Z. Metallkde. 87 (1987) 406. 18 L. Wagner and G. Lütjering: Microstructural Influences on Propagation of Short Cracks in an (Alpha+Beta) Ti-Alloy, Z. Metallkde. 87 (1987) 369. 17 H. Gray, L. Wagner and G. Lütjering: Influence of Residual Stresses on Fatigue Crack Propagation of Small Surface Cracks, Residual Stresses in Science and Technology, DGM (1987) 815. 1986 16 S. Adachi, L. Wagner and G. Lütjering: Influence of Mean Stress on Fatigue Crack Nucleation in (Alpha+Beta ) Ti-Alloys Proc. Int. Conf. on Fatigue of Eng. Mat. and Structures, The Institution of Mechanical Engineers, Sheffield, UK (1986) 67. 15 H. Gray, L. Wagner and G. Lütjering: Influence of Shot Peening on the Fatigue Strength of Ti-Alloys at Elevated Temperatures, Fatigue Prevention and Design, EMAS (1986) 363. 14 G. Lütjering, L. Wagner and A. Gysler: Production and Strength of Light Metals, Metallische und nichtmetallische Werkstoffe und ihre Verarbeitungsverfahren im Vergleich, VDI Verlag Düsseldorf (1986) 65. 13 L. Wagner, J. K. Gregory, A. Gysler and G. Lütjering: Propagation Behavior of Short Cracks in a-Ti-8.6Al Alloy, Small Fatigue Cracks, TMS-AIME (1986) 117. 1985 12 G. Lütjering, A. Gysler and L. Wagner: Fatigue and Fracture of Titanium Alloys Proc. Advanced Materials, Research and Developments for Transport, EMAS (1985) 309. 11 S. Adachi, L. Wagner and G. Lütjering: Influence of Mean Stress on Fatigue Strength of Ti-6Al-4V, Proc. ICSMA 7, Pergamon Press (1985) 2117. 10 L. Wagner, S. Lee and J. C. M. Li: Mechanical Healing of Ionic Crystals, Scripta Metall. 19 (1985) 361. 9 L. Wagner, C. Gerdes and G. Lütjering: Influence of Surface Treatment on Fatigue Strength of Ti-6Al-4V, Titanium Science and Technology, DGM (1985) 2147. 8 S. Adachi, L. Wagner and G. Lütjering: Influence of Microstructure and Mean Stress on Fatigue Strength of Ti-6Al-4V Titanium Science and Technology, DGM (1985) 2139.
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