A comparative study of spark plasma sintering and hybrid spark plasma sintering of 93W–4.9Ni–2.1Fe heavy alloy

Mixed 93W–4.9Ni–2.1Fe powders were sintered via the spark plasma sintering (SPS) and hybrid spark plasma sintering (HSPS) techniques with 30mm and 60mm samples in both conditions. After SPS and HSPS, the 30mm and 60mm alloys (except 60mm-SPS) had a relative density (>99.2%) close to the theoretic...

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Published in:International journal of refractory metals & hard materials 2016-02, Vol.55, p.16-23
Main Authors: Shongwe, Mxolisi Brendon, Diouf, Saliou, Durowoju, Mondiu Olayinka, Olubambi, Peter Apata, Ramakokovhu, Munyadziwa Mercy, Obadele, Babatunde Abiodun
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Language:English
Subjects:
Density
Evolution
Fracture
Grain size
Hardness
Mechanical properties
Microstructure
Sintering
Spark plasma sintering
Tungsten base alloys
Tungsten heavy alloys
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cited_by cdi_FETCH-LOGICAL-c376t-b7dc6d8ce68d72e28e2106922e75333fbe6709534e726f8614a81c69bea81a953
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container_title International journal of refractory metals & hard materials
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creator Shongwe, Mxolisi Brendon
Diouf, Saliou
Durowoju, Mondiu Olayinka
Olubambi, Peter Apata
Ramakokovhu, Munyadziwa Mercy
Obadele, Babatunde Abiodun
description Mixed 93W–4.9Ni–2.1Fe powders were sintered via the spark plasma sintering (SPS) and hybrid spark plasma sintering (HSPS) techniques with 30mm and 60mm samples in both conditions. After SPS and HSPS, the 30mm and 60mm alloys (except 60mm-SPS) had a relative density (>99.2%) close to the theoretical density. Phase, microstructure and mechanical properties evolution of W–Ni–Fe alloy during SPS and HSPS were studied. The microstructural evolution of the 60mm alloys varied from the edge of the sample to the core of the sample. Results show that the grain size and the hardness vary considerable from the edge to the core of sintered sample of 60mm sintered using conventional SPS compared to hybrid SPS. Similarly, the hardness also increased from the edge to the core. Furthermore, the 60mm-HSPS alloy exhibited improved bending strength of 1115MPa when compared to that of 60mm-SPS, 920MPa. The intergranular fracture along the W/W grain boundary is the main fracture modes of W–Ni–Fe, however in the 60mm-SPS alloy peeling of the grains was also observed which diminished the properties. The mechanical properties of SPS and HSPS 93W–4.9Ni–2.1Fe heavy alloys are dependent on the microstructural parameters such as tungsten grain size and overall homogeneity. •The 30mm and 60mm alloys (except 60mm-SPS) had a relative density of >99.2%.•The grain size and hardness vary considerable from the edge to the core of 60mm-SPS.•The 60mm-HSPS alloy exhibits improved bending strength than the 60mm-SPS.•Intergranular fracture along W/W grain boundary is the main fracture.•Mechanical properties are dependent on tungsten grain size and overall homogeneity.
doi_str_mv 10.1016/j.ijrmhm.2015.11.001
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source Elsevier:Jisc Collections:Elsevier Read and Publish Agreement 2022-2024:Freedom Collection (Reading list)
subjects Density
Evolution
Fracture
Grain size
Hardness
Mechanical properties
Microstructure
Sintering
Spark plasma sintering
Tungsten base alloys
Tungsten heavy alloys
title A comparative study of spark plasma sintering and hybrid spark plasma sintering of 93W–4.9Ni–2.1Fe heavy alloy
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