Szczegóły publikacji

Opis bibliograficzny

An analysis of the microstructure and mechanical properties of rapidly solidified Al-1Fe-1Ni-5Mg alloy / Anna KULA, Ludwik BŁAŻ, Makoto Sugamata // Key Engineering Materials ; ISSN 1013-9826. — 2015 — vol. 641, s. 3–9. — Bibliogr. s. 9, Abstr. — New materials and processing technologies : selected, peer reviewed papers from the international conference of non-ferrous metals – processing and new technologies : June 4–6, 2014, Wisła, Poland

Autorzy (3)

Słowa kluczowe

aluminium alloys TEM rapid solidification plastic consolidation

Dane bibliometryczne

ID BaDAP	89831
Data dodania do BaDAP	2015-06-30
Tekst źródłowy	URL
DOI	10.4028/www.scientific.net/KEM.641.3
Rok publikacji	2015
Typ publikacji	referat w czasopiśmie
Otwarty dostęp
Czasopismo/seria	Key Engineering Materials

Abstract

Experiments on Al-1Fe-1Ni-5Mg alloy were performed to determine the effect of rapid solidification (RS) on the material strengthening, which result from the refining of the grains and intermetallic compounds. Additionally, an enhancement of the material strengthening due to magnesium addition was also observed. RS procedure was performed using spray deposition of the molten alloy on the rotating water-cooled copper roll. As a result, highly refined structure of rapidly solidified flakes was obtained. Using common powder metallurgy (PM) techniques, i.e. cold pressing, vacuum degassing and hot extrusion, as received RS-flakes were consolidated to the bulk PM materials. For comparison purposes, the conventionally cast and hot extruded Al-1Fe-1Ni-5Mg alloy was studied as well. RS process combined with hot pressing and extrusion procedure was found to be very effective method for the manufacture of fine grained material and effective refinement of intermetallic compounds. However some inhomogenity of particles distribution was observed, which was ascribed to varied cooling rate dependent on the particular spray-drop size. Mechanical properties of as-extruded material were examined using compression test at 293-873K. High strength and ductility of as-extruded RS material with respect to conventionally produced alloy were observed. However, the effect of enhanced mechanical properties of RS material is observed only at low deformation temperatures. It was found that increasing deformation temperature above 400K results in negligible hardening of RS samples if compared to conventionally produced material. © (2015) Trans Tech Publications, Switzerland.

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#96153Data dodania: 18.2.2016

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