Add to ORKGThe present investigation discusses observations pertaining to the synthesis of Cu-based composites containing TiC particles in the range of 45–50 volume % by self-propagating high temperature synthesis (SHS) process. A composite with 11–13 volume % TiC dispersion was also synthesized through remelting and dilution. The composites were observed to contain a copper matrix together with a Cu–Ti intermetallic compound, TiC dispersoid particles and partially reacted graphite. The regions showing partially reacted graphite (carbon) became less prominent in the diluted composites. Al addition led to the refinement of TiC particles, higher hardness, reduced density and improved degree of formation and better homogeneity of the distribution of TiC ...
International audienceThis study focuses on the fabrication and microstructural investigation of Cu-...
The present work is focused on the processing and characterization of Cu–TiC composites. The samples...
Due to the lower strength of pure copper (Cu), ceramic\ud particulate or whisker reinforced Cu matri...
The present investigation discusses observations pertaining to the synthesis of Cu-based composites ...
The present investigation discusses observations pertaining to the synthesis of Cu-based composites ...
The in-situ reaction method for preparing metal matrix composites (MMCs) features the advantages lik...
In this work, Cu-TiC composites have been successfully prepared by reaction of soluble Ti and carbon...
TiCx particle-reinforced Cu-matrix composites were prepared in the Cu-Ti-C system by thermal explosi...
The Cu-TiC composites with non-stoichiometric TiC have been tried to prepare by melt reaction method...
Copper alloys with high electrical and thermal conductivities in combination with high elevated temp...
This study focuses on the fabrication and microstructural investigation of Cu–TiH2–C and Cu–Ti–C nan...
This study focuses on the fabrication and microstructural investigation of Cu–TiH2–C and Cu–Ti–C nan...
In this work, TiC–Cu composites containing 20 and 30 vol % of nano-sized titanium carbide (TiC) part...
In this work, TiC–Cu composites containing 20 and 30 vol % of nano-sized titanium carbide (TiC) part...
Copyright 2007 Elsevier B.V., All rights reserved.Reaction synthesis routes were studied as a means ...
International audienceThis study focuses on the fabrication and microstructural investigation of Cu-...
The present work is focused on the processing and characterization of Cu–TiC composites. The samples...
Due to the lower strength of pure copper (Cu), ceramic\ud particulate or whisker reinforced Cu matri...
The present investigation discusses observations pertaining to the synthesis of Cu-based composites ...
The present investigation discusses observations pertaining to the synthesis of Cu-based composites ...
The in-situ reaction method for preparing metal matrix composites (MMCs) features the advantages lik...
In this work, Cu-TiC composites have been successfully prepared by reaction of soluble Ti and carbon...
TiCx particle-reinforced Cu-matrix composites were prepared in the Cu-Ti-C system by thermal explosi...
The Cu-TiC composites with non-stoichiometric TiC have been tried to prepare by melt reaction method...
Copper alloys with high electrical and thermal conductivities in combination with high elevated temp...
This study focuses on the fabrication and microstructural investigation of Cu–TiH2–C and Cu–Ti–C nan...
This study focuses on the fabrication and microstructural investigation of Cu–TiH2–C and Cu–Ti–C nan...
In this work, TiC–Cu composites containing 20 and 30 vol % of nano-sized titanium carbide (TiC) part...
In this work, TiC–Cu composites containing 20 and 30 vol % of nano-sized titanium carbide (TiC) part...
Copyright 2007 Elsevier B.V., All rights reserved.Reaction synthesis routes were studied as a means ...
International audienceThis study focuses on the fabrication and microstructural investigation of Cu-...
The present work is focused on the processing and characterization of Cu–TiC composites. The samples...
Due to the lower strength of pure copper (Cu), ceramic\ud particulate or whisker reinforced Cu matri...