Journal ArticleDOI
The microstructure and mechanical properties of Fe–Cu materials fabricated by pressure-less-shaping of nanocrystalline powders
TLDR
In this paper, the microstructure of Fe-40%wtCu nanocrystalline powders, prepared by mechanical alloying, was studied before and after the consolidation process.Abstract:
The microstructure of Fe-40%wtCu nanocrystalline powders, prepared by mechanical alloying, was studied before and after the consolidation process. Pressure-less-shaping (PS) was used to consolidate the powders. The PS technique, similar to metal injection moulding (MIM), does not require external pressure in order to fill up the mould. The key factor of the process of consolidation is the use as binder a hybrid inorganic–organic monomer, formed by the reaction of zirconium propoxide and 2-hydroxy ethyl methacrylate. This type of monomer, mixed with the metallic powders, formed slurry having low viscosity, which was easily poured into mould. The binder stiffened upon polymerization. Some pieces were produced through debinding and sintering, both performed under inert atmosphere in order to avoid metal oxidation. Different microstructure and density were observed depending on the maximum sintering temperatures, ranging from 904 to 1,120 °C. In the sample sintered at 1,120 °C, the crystalline domains of the copper phase were of about 40 nm.read more
Citations
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The formation of supersaturated solid solutions in Fe–Cu alloys deformed by high-pressure torsion
TL;DR: Fully dense bulk nanocomposites have been obtained by a novel two-step severe plastic deformation process in the immiscible Fe–Cu system with a high hardness and an enhanced thermal stability.
Journal ArticleDOI
Thermal storage of sensible heat using concrete modules in solar power plants
Valentina Salomoni,Carmelo E. Majorana,Giuseppe Mauro Giannuzzi,Adio Miliozzi,Rosa Di Maggio,F. Girardi,Domenico Mele,Marco Lucentini +7 more
TL;DR: Guards for designing a concrete storage module and for its integration into a solar plant, respecting constraints linked both to an adequate solar field operation and to the production system based on ORC, are described as discussed by the authors.
Journal ArticleDOI
Microstructure evolution of phase separated Fe-Cu-Cr-C composite coatings by laser induction hybrid cladding
TL;DR: In this paper, the cooling rate of phase separated Fe-Cu composite coatings by laser induction hybrid cladding (LIHC) was investigated to estimate the temperature profiles and cooling rate.
Journal ArticleDOI
Phase separation and enhanced wear resistance of Cu88Fe12 immiscible coating prepared by laser cladding
Shuzhen Zhao,Shengfeng Zhou,Min Xie,Xiaoqin Dai,Dongchu Chen,Lai-Chang Zhang,Lai-Chang Zhang,Lai-Chang Zhang +7 more
TL;DR: In this paper, the phase separation characteristic and wear resistance of the immiscible coating were also investigated, and the results showed that the size of the milled Cu88Fe12 composite powder is reduced comparing to that of the un-milled powder due to fracturing during mechanical milling.
Journal ArticleDOI
Hierarchical microstructures and deformation behavior of laser direct-metal-deposited Cu–Fe alloys
TL;DR: In this article, the authors used laser direct metal deposition (DMD) based additive manufacturing technique to construct hierarchical microstructures with bi-phasic Cu and Fe dendrites that contain nanoscale precipitates of varying sizes and structures.
References
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Warren C. Oliver,George M. Pharr +1 more
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Journal ArticleDOI
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Warren C. Oliver,George M. Pharr +1 more
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Journal ArticleDOI
Thermodynamic and magnetic properties of metastable FexCu100−x solid solutions formed by mechanical alloying
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Journal ArticleDOI
Processing and microhardness of bulk Cu-Fe nanocomposites
TL;DR: In this paper, the authors developed full-density bulk nanocomposites for the immiscible Cu-Fe system through a powder metallurgy route, which were then decomposed into two-phase domains of various volume fractions during the hot consolidation process.
Journal ArticleDOI
Compaction and sintering characteristics of composite metal powders
TL;DR: In this paper, the compaction and sintering characteristics of composite metal powders were examined using aluminium-copper, aluminium-iron and copper-iron powders, and the effects of the volume fraction of the mixed powders and the Sintering temperature on the density and hardness of a sintered part were also examined.