Details
Title
Effect of Degassing Treatment on the Interfacial Reaction of Molten Aluminum and Solid Steel
Journal title
Archives of Foundry Engineering
Yearbook
Numer
Publication authors
Divisions of PAS
Publisher
The Katowice Branch of the Polish Academy of Sciences
Date
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