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Ilchat Sabirov
Researcher at IMDEA
Publications - 123
Citations - 4038
Ilchat Sabirov is an academic researcher from IMDEA. The author has contributed to research in topics: Microstructure & Ultimate tensile strength. The author has an hindex of 33, co-authored 117 publications receiving 3346 citations. Previous affiliations of Ilchat Sabirov include Deakin University & Austrian Academy of Sciences.
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Nanostructured aluminium alloys produced by severe plastic deformation: New horizons in development
TL;DR: In this article, the relationship between microstructural features, mechanical, chemical, and physical properties, as well as the innovation potential of the SPD-produced nanostructured Al alloys are discussed.
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A nanostructural design to produce high-strength Al alloys with enhanced electrical conductivity
TL;DR: In this article, a novel nanostructuring strategy is reported that achieves Al-Mg-Si alloys with superior tensile strength and enhanced electrical conductivity, based on a combination of grain refinement down to ultra-fine scale with accelerated formation of nanosized precipitates during severe plastic deformation.
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Nanostructured titanium-based materials for medical implants: Modeling and development
Leon Mishnaevsky,Evgeny A. Levashov,Ruslan Z. Valiev,Javier Segurado,Ilchat Sabirov,Nariman A. Enikeev,S. D. Prokoshkin,Andrey V. Solov’yov,Andrey Korotitskiy,Elazar Y. Gutmanas,I. Gotman,Eugen Rabkin,Sergey Psakh’e,Luděk Dluhoš,Marc Seefeldt,Alexey Yu. Smolin +15 more
TL;DR: In this article, an overview of advanced fabrication technologies of nanostructured, high strength, biocompatible Ti and shape memory Ni-Ti alloy for medical implants is given.
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New low carbon Q&P steels containing film-like intercritical ferrite
Maria Jesus Santofimia,T. Nguyen-Minh,Lie Zhao,Roumen Petrov,Roumen Petrov,Ilchat Sabirov,Jilt Sietsma +6 more
TL;DR: In this paper, the application of the Quenching and Partitioning (Q&P) process to two low-carbon steels has led to the development of a new kind of steel microstructure formed by laths of martensite separated by films of intercritical ferrite and retained austenite.
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Equal channel angular pressing of metal matrix composites: Effect on particle distribution and fracture toughness
TL;DR: In this paper, an Al6061-20%Al 2 O 3 powder metallurgy (PM) metal matrix composite (MMC) with a strongly clustered particle distribution is subjected to equal channel angular pressing (ECAP) at a temperature of 370°C.