Iron: Removal from Aluminum

Lifeng Zhang; Jianwei Gao; Lucas Nana Wiredu Damoah; David G. Robertson

doi:10.1201/9781351045636-140000434

Iron: Removal from Aluminum

Lifeng Zhang
, Jianwei Gao
, Lucas Nana Wiredu Damoah
, David G. Robertson

University of Science and Technology Beijing
Missouri University of Science and Technology
Shanghai Institute of Quality Inspection and Technical Research

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

1 Citation (Scopus)

Abstract

In this paper, the Fe-rich phases in and their detrimental effect on aluminum alloys are summarized. The existence of brittle platelet β-Fe-rich phases lowers the mechanical properties of aluminum alloys. The methods to neutralize the detrimental effect of iron are discussed. The use of high cooling rate, solution heat treatment, and addition of elements such as Mn, Cr, Be, Co, Mo, Ni, V, W, Cu, Sr, or the rare earth elements Y, Nd, La, and Ce are reported to modify the platelet Fe-rich phases in aluminum alloys. The mechanism of the modification is briefly described. Technologies to remove iron from aluminum are reviewed extensively. The precipitation and removal of Fe-rich phases (sludge) are discussed. The dense phases can be removed by methods such as gravitational separation, electromagnetic (EM) separation, and centrifuge. Other methods include electrolysis, electro-slag refining, fractional solidification, and fluxing refining. The expensive three-layer cell electrolysis process is the most successful technique to remove iron from aluminum so far.

Original language	English
Title of host publication	Encyclopedia of Aluminum and Its Alloys, Two-Volume Set (Print)
Publisher	CRC Press
Pages	1356-1389
Number of pages	34
Volume	1-2
ISBN (Electronic)	9781351045629
ISBN (Print)	9781351045605
DOIs	https://doi.org/10.1201/9781351045636-140000434
Publication status	Published - 1 Jan 2018
Externally published	Yes

Keywords

Al Si Cast Alloys
Al-11Si Alloys
Alloys
Aluminum
Aluminum Alloys
Centrifugal Separation
Chinese Script
Cooling Rate
Electroslag Refining
Em Separation
Fe Content
Fe Rich Intermetallic
Fe Rich Phases
Fluxing Refining
High Cooling Rate
Inter-dendritic Region
Iron Removal
Iron Removal Efficiency
Iron removal
Melt Flow Direction
Modification
Molten Aluminum
Oxide Bi-films
Removal Efficiency
Removal Fraction
Sludge Factor
Sludge Particles
Solution Heat Treatment
Sr Addition

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10.1201/9781351045636-140000434

Cite this

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title = "Iron: Removal from Aluminum",

abstract = "In this paper, the Fe-rich phases in and their detrimental effect on aluminum alloys are summarized. The existence of brittle platelet β-Fe-rich phases lowers the mechanical properties of aluminum alloys. The methods to neutralize the detrimental effect of iron are discussed. The use of high cooling rate, solution heat treatment, and addition of elements such as Mn, Cr, Be, Co, Mo, Ni, V, W, Cu, Sr, or the rare earth elements Y, Nd, La, and Ce are reported to modify the platelet Fe-rich phases in aluminum alloys. The mechanism of the modification is briefly described. Technologies to remove iron from aluminum are reviewed extensively. The precipitation and removal of Fe-rich phases (sludge) are discussed. The dense phases can be removed by methods such as gravitational separation, electromagnetic (EM) separation, and centrifuge. Other methods include electrolysis, electro-slag refining, fractional solidification, and fluxing refining. The expensive three-layer cell electrolysis process is the most successful technique to remove iron from aluminum so far.",

keywords = "Al Si Cast Alloys, Al-11Si Alloys, Alloys, Aluminum, Aluminum Alloys, Centrifugal Separation, Chinese Script, Cooling Rate, Electroslag Refining, Em Separation, Fe Content, Fe Rich Intermetallic, Fe Rich Phases, Fluxing Refining, High Cooling Rate, Inter-dendritic Region, Iron Removal, Iron Removal Efficiency, Iron removal, Melt Flow Direction, Modification, Molten Aluminum, Oxide Bi-films, Removal Efficiency, Removal Fraction, Sludge Factor, Sludge Particles, Solution Heat Treatment, Sr Addition",

author = "Lifeng Zhang and Jianwei Gao and Damoah, \{Lucas Nana Wiredu\} and Robertson, \{David G.\}",

note = "Publisher Copyright: {\textcopyright} 2019 by Taylor \& Francis Group, LLC.",

year = "2018",

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doi = "10.1201/9781351045636-140000434",

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T1 - Iron

T2 - Removal from Aluminum

AU - Zhang, Lifeng

AU - Gao, Jianwei

AU - Damoah, Lucas Nana Wiredu

AU - Robertson, David G.

PY - 2018/1/1

Y1 - 2018/1/1

N2 - In this paper, the Fe-rich phases in and their detrimental effect on aluminum alloys are summarized. The existence of brittle platelet β-Fe-rich phases lowers the mechanical properties of aluminum alloys. The methods to neutralize the detrimental effect of iron are discussed. The use of high cooling rate, solution heat treatment, and addition of elements such as Mn, Cr, Be, Co, Mo, Ni, V, W, Cu, Sr, or the rare earth elements Y, Nd, La, and Ce are reported to modify the platelet Fe-rich phases in aluminum alloys. The mechanism of the modification is briefly described. Technologies to remove iron from aluminum are reviewed extensively. The precipitation and removal of Fe-rich phases (sludge) are discussed. The dense phases can be removed by methods such as gravitational separation, electromagnetic (EM) separation, and centrifuge. Other methods include electrolysis, electro-slag refining, fractional solidification, and fluxing refining. The expensive three-layer cell electrolysis process is the most successful technique to remove iron from aluminum so far.

AB - In this paper, the Fe-rich phases in and their detrimental effect on aluminum alloys are summarized. The existence of brittle platelet β-Fe-rich phases lowers the mechanical properties of aluminum alloys. The methods to neutralize the detrimental effect of iron are discussed. The use of high cooling rate, solution heat treatment, and addition of elements such as Mn, Cr, Be, Co, Mo, Ni, V, W, Cu, Sr, or the rare earth elements Y, Nd, La, and Ce are reported to modify the platelet Fe-rich phases in aluminum alloys. The mechanism of the modification is briefly described. Technologies to remove iron from aluminum are reviewed extensively. The precipitation and removal of Fe-rich phases (sludge) are discussed. The dense phases can be removed by methods such as gravitational separation, electromagnetic (EM) separation, and centrifuge. Other methods include electrolysis, electro-slag refining, fractional solidification, and fluxing refining. The expensive three-layer cell electrolysis process is the most successful technique to remove iron from aluminum so far.

KW - Al Si Cast Alloys

KW - Al-11Si Alloys

KW - Alloys

KW - Aluminum

KW - Aluminum Alloys

KW - Centrifugal Separation

KW - Chinese Script

KW - Cooling Rate

KW - Electroslag Refining

KW - Em Separation

KW - Fe Content

KW - Fe Rich Intermetallic

KW - Fe Rich Phases

KW - Fluxing Refining

KW - High Cooling Rate

KW - Inter-dendritic Region

KW - Iron Removal

KW - Iron Removal Efficiency

KW - Iron removal

KW - Melt Flow Direction

KW - Modification

KW - Molten Aluminum

KW - Oxide Bi-films

KW - Removal Efficiency

KW - Removal Fraction

KW - Sludge Factor

KW - Sludge Particles

KW - Solution Heat Treatment

KW - Sr Addition

UR - https://www.scopus.com/pages/publications/105035975469

U2 - 10.1201/9781351045636-140000434

DO - 10.1201/9781351045636-140000434

M3 - Chapter

AN - SCOPUS:105035975469

SN - 9781351045605

VL - 1-2

SP - 1356

EP - 1389

BT - Encyclopedia of Aluminum and Its Alloys, Two-Volume Set (Print)

PB - CRC Press

ER -

Iron: Removal from Aluminum

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Keywords

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