Journal Article (51)
41.
Journal Article
43, pp. 554 - 575 (2022)
Phase Equilibria in the Ti-Rich Part of the Ti–Al–Nb System-Part II: High-Temperature Phase Equilibria Between 1000 and 1300 °C. Journal of Phase Equilibra and Diffusion 42.
Journal Article
608, pp. 310 - 316 (2022)
A mechanically strong and ductile soft magnet with extremely low coercivity. Nature 43.
Journal Article
Document ID: 10.15250.2.9, pp. 1 - 57 (2022)
Aluminium – Oxygen – Titanium. MSI Eureka 44.
Journal Article
13 (1), 2330 (2022)
A sustainable ultra-high strength Fe18Mn3Ti maraging steel through controlled solute segregation and α-Mn nanoprecipitation. Nature Communications 45.
Journal Article
13 (1), 3331 (2022)
Dual phase patterning during a congruent grain boundary phase transition in elemental copper. Nature Communications 46.
Journal Article
13, 1102 (2022)
Massive interstitial solid solution alloys achieve near-theoretical strength. Nature Communications 47.
Journal Article
13 (1), 4777 (2022)
The origin of jerky dislocation motion in high-entropy alloys. Nature Communications 48.
Journal Article
10 (5), pp. 301 - 309 (2022)
Local composition and nanoindentation response of δ-phase and adjacent γ′′-free zone in a Ni-based superalloy. Materials Research Letters 49.
Journal Article
111, pp. 105 - 110 (2022)
Structural deviations of bulk metallic glasses in downfacing surfaces fabricated via Laser Powder Bed Fusion. Procedia CIRP 50.
Journal Article
32 (48), 2207960 (2022)
Superior Room Temperature Compressive Plasticity of Submicron Beta-Phase Gallium Oxide Single Crystals. Advanced Functional Materials 51.
Journal Article
14 (48), pp. 18192 - 18199 (2022)
Atomistic structures of〈0001〉tilt grain boundaries in a textured Mg thin film. Nanoscale Book Chapter (8)
52.
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. 53.
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. 54.
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. 55.
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. 56.
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. 57.
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. 58.
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. 59.
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. Talk (22)
60.
Talk
Effect of composition and nanolayering on mechanical properties of Zr100-xCux thin film metallic glasses. Talk at Université catholique de Louvain (UCL), Louvain-la-Neuve, Belgium (2022)