Effect of Microstructure on the Thermal Properties of Sintered Iron-copper Composites
AUTOR(ES)
Ugarteche, Caroline Velasques, Furlan, Kaline Pagnan, Pereira, Rafaela do Vale, Trindade, Gabriel, Binder, Roberto, Binder, Cristiano, Klein, Aloisio Nelmo
FONTE
Mat. Res.
DATA DE PUBLICAÇÃO
2015-12
RESUMO
Copper is a well know material for use as heat sink or heat exchanger. However, copper has a considerable low tensile strength and temperature limit. A material that has a good thermal conductivity, low cost, but also resistance is the desired. Effects of copper on the sintering and thermal properties of iron-copper composites produced by powder metallurgy and Fe on copper-iron composites have been investigated. Copper and iron were varied from 20 to 80 vol.% in the samples, alternating the continuous phase. Sintering studies were performed by in-situ dilatometry aiming to define the proper conditions for sintering, without swelling normally associated with copper. Results indicate that the type of sintering, final microstructure, specially the phases relation and distribution and not only the amount of copper, have a great effect into the thermal properties. By controlling the sintering parameters, it is possible to obtain dimensionally stable samples with higher thermal conductivity and lower copper amount.
Documentos Relacionados
- Effect of Heating Method on Microstructure and Mechanical Properties of Zircon Reinforced Aluminum Composites
- Effect of PANI on Thermal, Mechanical and Electromagnetic Properties of HDPE/LLDPE/PANI Composites
- Effect of Thermal Residual Stresses on Buckling and Post-Buckling Properties of Laminated Composites Perimetrally Reinforced
- Effect of Welding Heat Input on the Microstructure and Mechanical Properties of Dissimilar Friction Stir-Welded Copper/Brass Lap Joint
- Effect of mixing time on the bed density, and microstructure of selective laser sintered (sls) aluminium powders