Journal Article (65)
61.
Journal Article
29 (17), pp. 2036 - 2043 (2014)
Laser metal deposition and selective laser melting of Fe-28 at.% Al. Journal of Materials Research 62.
Journal Article
598, pp. 253 - 265 (2014)
The liquidus surface of the Cr–Al–Nb system and re-investigation of the Cr–Nb and Al–Cr phase diagrams. Journal of Alloys and Compounds 63.
Journal Article
38, pp. 92 - 101 (2013)
Constitution of the ternary system Co–Si–Ti. Intermetallics 64.
Journal Article
39, pp. 58 - 68 (2013)
Melting behaviour and homogeneity range of B2 CoAl and updated thermodynamic description of the Al–Co system. Intermetallics 65.
Journal Article
64, pp. 74 - 81 (2012)
Neutral salt spray tests on Fe−Al and Fe−Al−X. Corrosion Science Book Chapter (16)
66.
Book Chapter
Mo–Nb–V (Molybdenum-Niobium-Vanadium). In: Mo-Nb-V Ternary Phase Diagram Evaluation, 10.14285.1.2. MSI, Materials Science International Services GmbH, Stuttgart (2023)
67.
Book Chapter
21, pp. 437 - 446. Materials Science International Services GmbH, Stuttgart, Germany (2022)
Al–Fe–Sn (Aluminium-Iron-Tin). In: Ternary Alloys: Selected Al–Fe–X Ternary Systems for Industrial Applications, Vol. 68.
Book Chapter
21, pp. 541 - 568. Materials Science International Services GmbH, Stuttgart, Germany (2022)
Al–Fe–Zn (Aluminium-Iron-Zinc). In: Ternary Alloys: Selected Al–Fe–X Ternary Systems for Industrial Applications, Vol. 69.
Book Chapter
21, pp. 73 - 99. Materials Science International Services GmbH, Stuttgart, Germany (2022)
Al–Co–Fe (Aluminium-Cobalt-Iron). In: Ternary Alloys: Selected Al–Fe–X Ternary Systems for Industrial Applications, Vol. 70.
Book Chapter
21, pp. 240 - 265 (Ed. Watson, A.) (2022)
Al–Fe–Nb (Aluminium-Iron-Niobium). In: Ternary Alloys: Selected Al–Fe–X Ternary Systems for Industrial Applications, Vol. 71.
Book Chapter
21, pp. 1 - 38 (Ed. Watson, A.). Materials Science International Services GmbH, Stuttgart, Germany (2022)
Al–Fe (Aluminium-Iron). In: Ternary Alloys: Selected Al–Fe–X Ternary Systems for Industrial Applications, Vol. 72.
Book Chapter
21, pp. 180 - 187 (Ed. Watson, A.). Materials Science International Services GmbH, Stuttgart, Germany (2022)
Al–Fe–Hf (Aluminium-Iron-Hafnium). In: Ternary Alloys: Selected Al–Fe–X Ternary Systems for Industrial Applications, Vol. 73.
Book Chapter
21, pp. 537 - 540 (Ed. Watson, A.). Materials Science International Services GmbH, Stuttgart, Germany (2022)
Al–Fe–W (Aluminium-Iron-Tungsten). In: Ternary Alloys: Selected Al–Fe–X Ternary Systems for Industrial Applications, Vol. 74.
Book Chapter
21, pp. 474 - 515. Materials Science International Services GmbH, Stuttgart, Germany (2022)
Al–Fe–Ti (Aluminium-Iron-Titanium). In: Ternary Alloys: Selected Al–Fe–X Ternary Systems for Industrial Applications, Vol. 75.
Book Chapter
Iron-Based Intermetallics. In: High-Performance Ferrous Alloys, pp. 423 - 458 (Ed. Rana, R.). Springer Nature Switzerland, Cham, Switzerland (2021)
76.
Book Chapter
Effenberg, G.). MSI, Materials Science International, Stuttgart (2020)
Al–Ti Binary Phase Diagram Evaluation. In: MSI Eureka, 20.15634.2.4 (Ed. 77.
Book Chapter
Al–Mo Binary Phase Diagram Evaluation. In: MSI Eureka, 20.12123.3.1, 3 Ed., pp. 1 - 9 (Ed. Watson, A.). MSI, Materials Science International Services GmbH, Stuttgart, Stuttgart, Germany (2020)
78.
Book Chapter
Effenberg, G.). MSI, Materials Science International, Stuttgart, Germany (2019)
Fe–Nb–Ti Ternary Phase Diagram Evaluation. In: MSI Eureka, 10.36946.1.5, pp. 1 - 26 (Ed. 79.
Book Chapter
Effenberg, G.). MSI, Materials Science International, Stuttgart (2019)
Al–Co–Fe Ternary Phase Diagram Evaluation. In: MSI Eureka, 10.15955.3.7 (Ed. 80.
Book Chapter
Effenberg, G.). MSI, Materials Science International, Stuttgart, Germany (2018)
Co–Ti–Zr Ternary Phase Diagram Evaluation. In: MSI Eureka, 10.15651.1.8 (Ed.