Debashis Mukherji
Braunschweig University of Technology
123 Papers
615 Citations
Debashis Mukherji is an academic researcher from Braunschweig University of Technology. The author has contributed to research in topics: Superalloy & Alloy. The author has an hindex of 21, co-authored 116 publications. Previous affiliations of Debashis Mukherji include ETH Zurich & MTU Aero Engines.
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Papers
Metallic materials for structural applications beyond nickel-based superalloys
Martin Heilmaier,Manja Krüger,Holger Saage,Joachim Rösler,Debashis Mukherji,Uwe Glatzel,Rainer Völkl,Rainer Hüttner,Gunther Eggeler,Christoph Somsen,T. Depka,Hans-Jürgen Christ,Bronislava Gorr,S. Burk +13 more
TL;DR: In this article, a review of the current research activities on developing new multiphase metallic materials for structural applications with a temperature capability beyond 1,200°C is presented, and two promising material systems have been chosen: first, alloys in the system Mo-Si-B which have demonstrated potential due to their high melting point of around 2,000°C and due to the formation of a protecting borosilicate glass layer on the surface at temperatures exceeding 900°C.
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Fabrication of nanoporous Ni-based superalloy membranes
TL;DR: In this article, the self-assembly of the ordered γ′-phase is utilized to produce nanoporous superalloy membranes with particularly interesting functional properties, and the manufacturing process encompassing thermo-mechanical processing and electrochemical leaching, the resulting microstructure and properties, as well as potential areas of application for this new material class are described.
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Co‐Re‐based Alloys: A New Class of High Temperature Materials?
TL;DR: In this paper, the development of Co-Re-based high temperature alloys is addressed and four alloys are evaluated to gain first insight in the microstructure evolution of this material class.
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Lattice misfit measurement in Inconel 706 containing coherent γ′ and γ″ precipitates
Debashis Mukherji,Ralph Gilles,Bruno Barbier,D. Del Genovese,B. Hasse,Pavel Strunz,T Wroblewski,Hartmut Fuess,Joachim Rösler +8 more
TL;DR: In this paper, X-ray and synchrotron measurements were performed on bulk samples with precipitates in constrained lattice and the lattice misfit was determined even though the peaks were completely overlapped.
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Nano-structured materials produced from simple metallic alloys by phase separation
TL;DR: A method which is able to produce different types of nano-Structured materials, namely nano-particles, nano-structured surfaces and nano-porous membranes, from two-phase metallic alloys is reviewed.
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