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Supplier: ASTM International
Description: induction-slag, plasma arc, induction-skull, and electron beam melting processes. The materials shall undergo chemical, pour, and product analysis to determine the chemical composition which shall conform to the requirements for nitrogen, carbon, hydrogen, iron, oxygen, aluminum,
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Supplier: Zak, Inc.
Description: Water cooled copper molds hold reactive alloys during solidification
- Application / Industry: Nickel Base / Superalloys, Precious / Red Metals, Titanium / Reactive Metals
- Atmosphere Type: Inert, Reducing, Vacuum
- Bottom Type / Pour Method: Flat Bottom, Round Bottom, Other
- Crucible Products: Crucible - Conical / Tapered, Crucible - Skull Melting / Water Cooled, Other
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Supplier: Zak, Inc.
Description: High velocity flow configurations or conventional water jacket designs
- Application / Industry: Nickel Base / Superalloys, Precious / Red Metals, Titanium / Reactive Metals
- Atmosphere Type: Inert, Reducing, Vacuum
- Bottom Type / Pour Method: Flat Bottom, Round Bottom, Pouring / Metering Hole, Pouring Spout
- Crucible Products: Crucible - Conical / Tapered, Crucible - Cylindrical (Straight wall), Crucible - Skull Melting / Water Cooled, Crucible Liner, Evaporation Crucible
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Supplier: Zak, Inc.
Description: Water cooled copper contains reactive molten metals without contamination
- Application / Industry: Nickel Base / Superalloys, Precious / Red Metals, Titanium / Reactive Metals
- Atmosphere Type: Inert, Reducing, Vacuum
- Bottom Type / Pour Method: Flat Bottom, Round Bottom, Pouring / Metering Hole, Pouring Spout
- Crucible Products: Crucible - Conical / Tapered, Crucible - Cylindrical (Straight wall), Crucible - Skull Melting / Water Cooled, Crucible Liner, Evaporation Crucible
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Supplier: Zak, Inc.
Description: Water cooled copper contains reactive molten metals without contamination
- Application / Industry: Nickel Base / Superalloys, Precious / Red Metals, Titanium / Reactive Metals
- Atmosphere Type: Inert, Reducing, Vacuum
- Bottom Type / Pour Method: Flat Bottom, Round Bottom, Pouring / Metering Hole, Pouring Spout
- Crucible Products: Crucible - Conical / Tapered, Crucible - Cylindrical (Straight wall), Crucible - Skull Melting / Water Cooled, Crucible Liner, Evaporation Crucible
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Induction Skull Melting of Titanium and Other Reactive Alloys
CHARACTERIZATION OF INDUCTION SKULL MELTED TITANIUM .
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Production of TiNi fibers by melt extraction
To this end, it was needed to (i) try out the process of vacuum skull melting of titanium nickelide upon .
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Advancements in Ti Alloy Powder Production by Close-Coupled Gas Atomization
R. A. Harding and M. Wickins, "Temperature measurments during induction skull melting of titanium aluminide," Materials Science and Technology, vol.
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Diffusion models for evaporation losses during electron-beam melting of alpha/beta-titanium alloys
Values of heff during the skull melting of titanium are typically ϳ210 kW/m2 for .
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Liquid Metal Flows: Magnetohydrodynamics and Application > Metallurgy -I- MHD = Innovative Technologies
This production has demonstrated that induction skull melting of titanium ,zirconium, and other reactive elements or alloys is a viable process for casting.
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1987 TMS Fall Meeting Program
(9:10 a.m.) INDUCTION SKULL MELTING OF TITANIUM ALUMINIDES: D.J.Chronister, The Duriron Company, P.O.Box 1145, Dayton, OhiO 45401; D.R.Stickle, The Duriron Company; S.W.Scott, The Duriron Company.
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An InGaAlAs–InGaAs Two-Color Photodetector for Ratio Thermometry
In some cases, the emissivity changes due to composition variation on the sur- face, such as growing zinc alloy during galvanneal process and induction skull melting of titanium aluminide [7], [8].
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Structure, sorption and catalytic properties of a hydrogen-accumulating alloy of the Ti – Fe – Zr – Mo system
A. V. Aleksandrov and M. I. Musatov, “Development of skull melting of titanium alloys,” Tekhnol. Legk.
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Modelling generation mechanism of defects during permanent mould centrifugal casting process of TiAl alloy exhaust valve
R. A. Harding and M. Wickins: ‘Temperature measurements during induction skull melting of titanium aluminide’, Mater.
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A Process for Production of a Niobium-containing TiAl Based Alloy
Su, H. Ding , G. Liu and J. Jia, “Evaporation Behavior of Al during the Cold Crucible Induction Skull Melting of Titanium Aluminum Alloys”, Metallurgical and Materials Transactions, 2000, vol.
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