Details

Title

Effect of Degassing Treatment on the Interfacial Reaction of Molten Aluminum and Solid Steel

Journal title

Archives of Foundry Engineering

Yearbook

2017

Numer

No 2

Publication authors

Divisions of PAS

Nauki Techniczne

Publisher

The Katowice Branch of the Polish Academy of Sciences

Date

2017

Identifier

ISSN 2299-2944

References

Hatch (2005), Aluminum , Properties and Physical Metallurgy for Metals , tenth printing, American Society. ; Yajiang (2005), Diffusity of Al and Fe near the diffusion bonding interface of Fe Al with low carbon steel, Bull Mater Sci, 28, 69. ; Zhang (2002), Influence of Diffusion Time on Steel - Aluminum Solid to Liquid Bonding Interfacial Structure, Mater Sci Technol, 18, 468. ; Zhao (2012), Degassing of aluminum alloys during re - melting, Materials Letters, 66. ; Warke (2005), Mathematical modeling and computer simulation of molten metal cleansing by the rotating impeller degasser : Part I Fluid flow of Materials Processing Technology, Journal, 168. ; Eisaabadi (2012), Effects of hydrogen and oxides on tensile properties of Al - Si - Mg cast alloys and, Materials Science Engineering, 552. ; Tanaka (2009), Comprehensive analysis of joint strength for dissimilar friction stir welds of mild steel to aluminum alloys, Scripta Materialia, 61. ; Haghayeghi (2012), Effect of ultrasonic argon degassing on dissolved hydrogen in aluminum alloy, Materials Letters, 82. ; Schimek (2012), Laser - welded dissimilar steel - aluminum seams for automotive lightweight construction, Physics Procedia, 39. ; Esfahani (2012), Study of Corrosion Behavior of Arc Sprayed Aluminum Coating on Mild Steel of Thermal Spray, Journal Technology, 21, 1195. ; Ogura (2012), Partitioning evaluation of mechanical properties and the interfacial microstructure in a friction stir welded aluminum alloy / stainlesssteel lap joint, Scripta Materialia, 66. ; Chen (2004), Joining of Al alloy to AISI steel by combined effects of fusion and solid state welding of Machine Tools, International Journal Manufacture, 6061. ; Zeng (2012), Investigation of Inner Vacuum Sucking method for degassing of molten aluminum and, Materials Science Engineering, 177. ; Dispinar (2010), Degassing , hydrogen and porosity phenomena in A and, Materials Science Engineering, 356. ; Uematsu (2010), Fatigue behaviour of dissimilar friction stir spot weld betweenA and SPCC welded by a scrolled groove shoulder tool, Procedia Engineering, 2, 193. ; Ren (2014), Degassing of aluminum alloys via the electromagnetic directional solidification, Vacuum, 109. ; Raiszadeh (2010), The behavior of double oxide film defects in liquid Al alloys under atmospheric and reduced pressures of Alloys and Compounds, Journal, 491. ; Qiu (2010), Interfacial characterization of joint between mild steel and aluminum alloy welded by resistance spot welding, Materials Characterization, 61. ; Samuel (1992), Various aspects involved in the production of low - hydrogen aluminium castings Materials, Journal of Science, 27. ; Wang (2009), Rotary impeller refinement of Al alloy, Rare Metals, 28. ; Xu (2007), Effects of ultrasonic field and vacuum on degassing of molten aluminum alloy, Materials Letters, 61. ; Wu (2007), Effects of spray degassing parameters on hydrogen content and properties of commercial purity aluminum and, Materials Science Engineering, 456. ; Song (1996), Grain boundary segregation and hydrogen - induced fracture in Aluminium alloy, Acta Metall, 44. ; Lee (2016), Corrosion Resistance Properties of Aluminum Coating Applied by Arc Thermal Metal Spray in SAE Solution with Exposure Periods, Metals, 6, 2334. ; Clementi (1967), Atomic Screening Constants from SCF Functions II Atoms with to Electrons, Chem Phys, 86, 47. ; Eskin (1998), Prospects of ultrasonic ( cavitational ) treatment of the melt in the manufacture of aluminum alloy products, Metallurgist, 42. ; Kobayashi (2002), Control of intermetallic compound layers at interface between steel and aluminum by diffusion - treatment and, Materials Science Engineering, 338. ; Shahverdi (2002), Microstructural analysis of interfacial reaction between molten aluminum and solid iron of Materials Processing Technology, Journal, 124.

DOI

10.1515/afe-2017-0080

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