Effect of sintering temperature on the microstructure and mechanical properties of Fe–30%Ni alloys produced by spark plasma sintering

Fe–30%Ni alloys were produced by sintering in the hybrid hot press spark plasma sintering system using iron and nickel as raw materials. The results indicate that the relative density, microhardness and fracture morphology depend on the sintering temperature which also affects the microstructure. Th...

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Veröffentlicht in:	Journal of alloys and compounds 2015-11, Vol.649, p.824-832
Hauptverfasser:	Shongwe, Mxolisi Brendon, Diouf, Saliou, Durowoju, Mondiu Olayinka, Olubambi, Peter Apata
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloys Densification Density Ferrous alloys Fracture Fracture mechanics Grain size Indentation Microhardness Microstructure Sintering Spark plasma sintering
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creator	Shongwe, Mxolisi Brendon Diouf, Saliou Durowoju, Mondiu Olayinka Olubambi, Peter Apata
description	Fe–30%Ni alloys were produced by sintering in the hybrid hot press spark plasma sintering system using iron and nickel as raw materials. The results indicate that the relative density, microhardness and fracture morphology depend on the sintering temperature which also affects the microstructure. The densification and grain size of the alloys increased with increasing sintering temperature, facilitating necking of grains. In the case of the sintering temperature at 1230 °C, a relative density of 98.7% and a maximum grain size of around 200 μm were obtained, and the maximum microhardness of 284Hv1.0, and the microhardness indentations revealed pincushioning indicating better sintering. Microhardness indentations at 1100 °C and below were characterized by barreling, indicating poor densification and/or microhardness. The fracture type changing from intergranular fracture to transgranular fracture is an indication of improved consolidation of the Fe–30%Ni alloy with increasing sintering temperature. •Density, microhardness and fracture morphology depend on the sintering temperature.•Density and grain size of alloys increased with increasing sintering temperature.•Transgranular fracture at the highest temperature is observed.•Increase in sintering temperature results in improved mechanical properties.
doi_str_mv	10.1016/j.jallcom.2015.07.223
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The results indicate that the relative density, microhardness and fracture morphology depend on the sintering temperature which also affects the microstructure. The densification and grain size of the alloys increased with increasing sintering temperature, facilitating necking of grains. In the case of the sintering temperature at 1230 °C, a relative density of 98.7% and a maximum grain size of around 200 μm were obtained, and the maximum microhardness of 284Hv1.0, and the microhardness indentations revealed pincushioning indicating better sintering. Microhardness indentations at 1100 °C and below were characterized by barreling, indicating poor densification and/or microhardness. The fracture type changing from intergranular fracture to transgranular fracture is an indication of improved consolidation of the Fe–30%Ni alloy with increasing sintering temperature. •Density, microhardness and fracture morphology depend on the sintering temperature.•Density and grain size of alloys increased with increasing sintering temperature.•Transgranular fracture at the highest temperature is observed.•Increase in sintering temperature results in improved mechanical properties.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.jallcom.2015.07.223</doi><tpages>9</tpages></addata></record>
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subjects	Alloys Densification Density Ferrous alloys Fracture Fracture mechanics Grain size Indentation Microhardness Microstructure Sintering Spark plasma sintering
title	Effect of sintering temperature on the microstructure and mechanical properties of Fe–30%Ni alloys produced by spark plasma sintering
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