A two-stage approach of manufacturing FeAl40 iron aluminides by self-propagating synthesis and pressureless sintering

Zhenxue Zhang; Andreas   Chrysanthou

doi:10.1080/00325899.2018.1478778

A two-stage approach of manufacturing FeAl40 iron aluminides by self-propagating synthesis and pressureless sintering

Zhenxue Zhang, Andreas Chrysanthou

Metallurgy and Materials

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Abstract

A two-stage sintering process was successfully used to sinter FeAl to densification levels of just above 95% at a temperature of 1300 ºC. In the first stage, mixed iron and aluminium powders were synthesised at 750°C via Self Propagating High-temperature Synthesis (SHS) to form brittle and porous Fe2Al5. Then the pellets were crushed and milled to various sizes and mixed with iron powders in the nominal composition of FeAl40 and pressurelessly sintered at a higher temperature to obtain a higher densification by taking advantage of the less violent exothermic reaction of Fe2Al5 and Fe. The intermediate and end products in SHS and sintering were characterised by SEM/EDX and XRD. The porosity level of the final FeAl40 product was controlled by the heating rate and powder size, which was also strongly influenced by the temperature, holding time and the ratio of the two powders.

Original language	English
Journal	Powder Metallurgy
Early online date	11 Jun 2018
DOIs	https://doi.org/10.1080/00325899.2018.1478778
Publication status	E-pub ahead of print - 11 Jun 2018

Keywords

sintering
pressureless
iron aluminide
self-propagating synthesis

ASJC Scopus subject areas

General Materials Science

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10.1080/00325899.2018.1478778

Zhang_&_Chrysanthou_A-Two-stage_approach_Powder_Metallurgy_2018
This is an Accepted Manuscript of an article published by Taylor & Francis in Powder Metallurgy on 11th June 2018, available online: http://www.tandfonline.com/10.1080/00325899.2018.1478778 Checked for eligibility: 18/05/2018
Accepted author manuscript, 1.61 MBLicence: None: All rights reserved

Cite this

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title = "A two-stage approach of manufacturing FeAl40 iron aluminides by self-propagating synthesis and pressureless sintering",

abstract = "A two-stage sintering process was successfully used to sinter FeAl to densification levels of just above 95% at a temperature of 1300 ºC. In the first stage, mixed iron and aluminium powders were synthesised at 750°C via Self Propagating High-temperature Synthesis (SHS) to form brittle and porous Fe2Al5. Then the pellets were crushed and milled to various sizes and mixed with iron powders in the nominal composition of FeAl40 and pressurelessly sintered at a higher temperature to obtain a higher densification by taking advantage of the less violent exothermic reaction of Fe2Al5 and Fe. The intermediate and end products in SHS and sintering were characterised by SEM/EDX and XRD. The porosity level of the final FeAl40 product was controlled by the heating rate and powder size, which was also strongly influenced by the temperature, holding time and the ratio of the two powders.",

keywords = "sintering , pressureless, iron aluminide, self-propagating synthesis ",

author = "Zhenxue Zhang and Andreas Chrysanthou",

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AU - Zhang, Zhenxue

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N2 - A two-stage sintering process was successfully used to sinter FeAl to densification levels of just above 95% at a temperature of 1300 ºC. In the first stage, mixed iron and aluminium powders were synthesised at 750°C via Self Propagating High-temperature Synthesis (SHS) to form brittle and porous Fe2Al5. Then the pellets were crushed and milled to various sizes and mixed with iron powders in the nominal composition of FeAl40 and pressurelessly sintered at a higher temperature to obtain a higher densification by taking advantage of the less violent exothermic reaction of Fe2Al5 and Fe. The intermediate and end products in SHS and sintering were characterised by SEM/EDX and XRD. The porosity level of the final FeAl40 product was controlled by the heating rate and powder size, which was also strongly influenced by the temperature, holding time and the ratio of the two powders.

AB - A two-stage sintering process was successfully used to sinter FeAl to densification levels of just above 95% at a temperature of 1300 ºC. In the first stage, mixed iron and aluminium powders were synthesised at 750°C via Self Propagating High-temperature Synthesis (SHS) to form brittle and porous Fe2Al5. Then the pellets were crushed and milled to various sizes and mixed with iron powders in the nominal composition of FeAl40 and pressurelessly sintered at a higher temperature to obtain a higher densification by taking advantage of the less violent exothermic reaction of Fe2Al5 and Fe. The intermediate and end products in SHS and sintering were characterised by SEM/EDX and XRD. The porosity level of the final FeAl40 product was controlled by the heating rate and powder size, which was also strongly influenced by the temperature, holding time and the ratio of the two powders.

KW - sintering

KW - pressureless

KW - iron aluminide

KW - self-propagating synthesis

U2 - 10.1080/00325899.2018.1478778

DO - 10.1080/00325899.2018.1478778

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A two-stage approach of manufacturing FeAl40 iron aluminides by self-propagating synthesis and pressureless sintering

Abstract

Keywords

ASJC Scopus subject areas

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