PUBLIKATIONEN Prof. Dr.-Ing. habil. L. Wagner - Institut für ...
PUBLIKATIONEN Prof. Dr.-Ing. habil. L. Wagner - Institut für ...
PUBLIKATIONEN Prof. Dr.-Ing. habil. L. Wagner - Institut für ...
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<strong>PUBLIKATIONEN</strong> <strong>Prof</strong>. <strong>Dr</strong>.-<strong>Ing</strong>. <strong>habil</strong>. L. <strong>Wagner</strong><br />
24 L. <strong>Wagner</strong> and G. Lütjering:<br />
Influence of Surface Treatment on Fatigue Resistance of Aircraft Alloys, Advances in Fatigue Science and<br />
Technology, Kluwer Academic Publishers (1989) 933.<br />
1987<br />
23 H. Gray, L. <strong>Wagner</strong> and G. Lütjering:<br />
Influence of Shot Peening Induced Surface Roughness, Residual Macrostresses and Dislocation Density on the<br />
Elevated Temperature HCF-Properties of Ti-Alloys Sixth Chinese National Conference on Titanium, Xi'an,<br />
China (1987).<br />
22 L. <strong>Wagner</strong> and G. Lütjering:<br />
A Comparison of Short Crack Propagation in an Al-Alloy with Different Age-Hardening Conditions and Grain<br />
Sizes, Fatigue 87, EMAS (1987) 1819.<br />
21 H. Gray, L. <strong>Wagner</strong> and G. Lütjering:<br />
Effect of Surface Layer Microstructures Modified through Shot Peening and Subsequent Heat Treatment on the<br />
Elevated Temperature Fatigue Behavior of Ti-Alloys, Shot Peening, DGM (1987) 467.<br />
20 H. Gray, L. <strong>Wagner</strong> and G. Lütjering:<br />
Influence of Shot Peening Induced Surface Roughness, Residual Macrostresses and Dislocation Density on the<br />
Elevated Temperature HCF-Properties of Ti-Alloys Shot Peening, DGM (1987) 447.<br />
19 M. A. Däubler, H. Gray, L. <strong>Wagner</strong> and G. Lütjering:<br />
Fatigue Behavior of High-Strength Titanium Alloys at Elevated Temperatures, Z. Metallkde. 87 (1987) 406.<br />
18 L. <strong>Wagner</strong> and G. Lütjering:<br />
Microstructural Influences on Propagation of Short Cracks in an (Alpha+Beta) Ti-Alloy, Z. Metallkde. 87 (1987)<br />
369.<br />
17 H. Gray, L. <strong>Wagner</strong> and G. Lütjering:<br />
Influence of Residual Stresses on Fatigue Crack Propagation of Small Surface Cracks, Residual Stresses in<br />
Science and Technology, DGM (1987) 815.<br />
1986<br />
16 S. Adachi, L. <strong>Wagner</strong> and G. Lütjering:<br />
Influence of Mean Stress on Fatigue Crack Nucleation in (Alpha+Beta ) Ti-Alloys Proc. Int. Conf. on Fatigue of<br />
Eng. Mat. and Structures, The <strong>Institut</strong>ion of Mechanical Engineers, Sheffield, UK (1986) 67.<br />
15 H. Gray, L. <strong>Wagner</strong> and G. Lütjering:<br />
Influence of Shot Peening on the Fatigue Strength of Ti-Alloys at Elevated Temperatures, Fatigue Prevention and<br />
Design, EMAS (1986) 363.<br />
14 G. Lütjering, L. <strong>Wagner</strong> and A. Gysler:<br />
Production and Strength of Light Metals, Metallische und nichtmetallische Werkstoffe und ihre<br />
Verarbeitungsverfahren im Vergleich, VDI Verlag Düsseldorf (1986) 65.<br />
13 L. <strong>Wagner</strong>, J. K. Gregory, A. Gysler and G. Lütjering:<br />
Propagation Behavior of Short Cracks in a-Ti-8.6Al Alloy, Small Fatigue Cracks, TMS-AIME (1986) 117.<br />
1985<br />
12 G. Lütjering, A. Gysler and L. <strong>Wagner</strong>:<br />
Fatigue and Fracture of Titanium Alloys Proc. Advanced Materials, Research and Developments for Transport,<br />
EMAS (1985) 309.<br />
11 S. Adachi, L. <strong>Wagner</strong> and G. Lütjering:<br />
Influence of Mean Stress on Fatigue Strength of Ti-6Al-4V, Proc. ICSMA 7, Pergamon Press (1985) 2117.<br />
10 L. <strong>Wagner</strong>, S. Lee and J. C. M. Li:<br />
Mechanical Healing of Ionic Crystals, Scripta Metall. 19 (1985) 361.<br />
9 L. <strong>Wagner</strong>, C. Gerdes and G. Lütjering:<br />
Influence of Surface Treatment on Fatigue Strength of Ti-6Al-4V, Titanium Science and Technology, DGM<br />
(1985) 2147.<br />
8 S. Adachi, L. <strong>Wagner</strong> and G. Lütjering:<br />
Influence of Microstructure and Mean Stress on Fatigue Strength of Ti-6Al-4V Titanium Science and<br />
Technology, DGM (1985) 2139.