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Supplier: Inductotherm Group
Description: Electrode VIM systems are the largest VIM systems with heat sizes ranging from 5 tons to 30 tons. Electrode VIMs typically pour several electrode mold setups which could be as much as 5 meters (16.4 feet) in length. Features Rugged steel shell induction furnace
- Application: Foundry / Melting
- Atmosphere: Vacuum
- Heat Source / Transfer: Induction
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Supplier: Inductotherm Group
Description: Smaller VIM furnaces are commonly used to start a company in the business of producing vacuum induction melted materials, or for research and development efforts into new alloys and processes. A wide variety of configurations are available to match customer requirements. Features
- Application: Foundry / Melting
- Atmosphere: Vacuum
- Heat Source / Transfer: Induction
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Supplier: Inductotherm Group
Description: Power Window Ladle Systems combine the mobility, strength and refining flexibility of a steel ladle with the melting power, stirring action, and precise temperature control of an induction furnace. Using our Power Window Technology (PWT), the magnetic field produced by the
- Application: Foundry / Melting
- Heat Source / Transfer: Induction
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Supplier: Inductotherm Group
Description: Induction Power Ladle Systems combine the mobility, strength and refining flexibility of a steel ladle with the melting power, stirring action and precise temperature control of an induction furnace. Carrying out all processes, from pouring to refining, in the same
- Application: Foundry / Melting
- Heat Source / Transfer: Induction
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Supplier: Trent, Inc.
Description: Used for heat treating small quantities of material, ash determination, melting of white metal and for thermocouple calibration. TRENT Pit or Crucible furnaces have heating elements wound on a spiral form. The cover can be drilled for insertion of a thermometer or thermocouple.
- Application: Foundry / Melting, Heat Treating, Other
- Atmosphere: Air / Oxidizing
- Configuration: Top Loading
- Controller Type: Single Set Point
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Supplier: Trent, Inc.
Description: Maximum Temperature: 1000°F / 538°C Used to melt aluminum and zinc. TRENT Aluminum and Zinc Melting Furnaces are specially designed for these hard-to-handle metals. The pots are fabricated from 1-1/4" thick steel using welded steel construction. TRENT
- Application: Foundry / Melting
- Atmosphere: Air / Oxidizing
- Configuration: Top Loading
- Controller Type: Single Set Point
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Supplier: Trent, Inc.
Description: PCT Series Maximum Temperature: 600°F / 316°C LRT Series Maximum Temperature: 800°F / 427°C TRENT Solder and Tinning Troughs answer the demand for heavy-duty equipment capable of precision control. These troughs all employ the same basic design regardless of their size or type of usage. The heavy
- Application: Foundry / Melting
- Atmosphere: Air / Oxidizing
- Configuration: Top Loading, Other
- Controller Type: Single Set Point
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Supplier: Trent, Inc.
Description: Maximum Temperature: 1000°F / 538°C Used to melt lead and babbitt. TRENT Stationary Melting Pots - MT Series are fabricated from 1/2" thick steel or heavier using welded steel construction. TRENT Folded and Formed® heating elements are mounted to
- Application: Foundry / Melting
- Atmosphere: Air / Oxidizing
- Configuration: Top Loading
- Controller Type: Single Set Point
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Supplier: Aremco Products, Inc.
Description: Aremco offers a complete line of electric box furnaces from .1 to 7.5 cubic feet for applications to 2350 °F. All furnaces are ruggedly constructed and energy efficient, and a wide range of temperature controls are offered for every type of use. Custom features and sizes are also
- Application: Annealing, Foundry / Melting, Heat Treating, Laboratory
- Configuration: Box
- Controller Type: Single Set Point, Programmable
- Heat Source / Transfer: Electric / Resistance
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Supplier: L&L Kiln Mfg. Inc.
Description: Handheld DynaTrol with Dynamic Zone Control, 4 preset programs, 6 user defined programs
- Application: Aging, Annealing, Brazing / Soldering, Burn-off, Curing, Firing / Sintering, Foundry / Melting, Heat Treating, Preheating
- Atmosphere: Air / Oxidizing
- Configuration: Top Loading
- Controller Type: Programmable
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Supplier: L&L Kiln Mfg. Inc.
Description: The Easy-Load Professional-Grade Front-Loading Kiln meets the needs of schools, studios and potters who need a well-built easy-to-load cone 10 kiln. The proven technology of the Dyna-Trol Program Control automates the firing process. The even element spacing and built in standard zone control ensure
- Application: Aging, Annealing, Brazing / Soldering, Burn-off, Curing, Firing / Sintering, Foundry / Melting, Heat Treating, Preheating
- Atmosphere: Air / Oxidizing
- Configuration: Top Loading
- Controller Type: Programmable
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Supplier: L&L Kiln Mfg. Inc.
Description: L&L Kiln Mfg., Inc. announces the development of a line of large industrial-grade Bell-Lift kilns designed for industrial ceramics and other industrial applications. The first model is 100 cubic feet (66" wide by 48" deep by 54" high). Larger and smaller models can be built. The kiln reaches 2350°F
- Application: Aging, Annealing, Brazing / Soldering, Burn-off, Curing, Firing / Sintering, Foundry / Melting, Heat Treating, Preheating
- Atmosphere: Air / Oxidizing
- Configuration: Top Loading
- Controller Type: Programmable
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controlled atmosphere furnace technologies for the processing of metals, specialty alloys, and engineered materials. Those vacuum furnace technologies include: Vacuum Arc Remelting Furnaces (VAR) Electroslag Remelting Furnaces (ESR) Vacuum Induction Melting furnaces (read more)
Browse Vacuum Furnaces Datasheets for Inductotherm Group -
From small capacity precision casting operations to the largest induction melting foundry, Inductotherm Group companies manufacture the furnace that is right for you. Heavy Steel Shell Furnaces: Our Heavy Steel Shell furnaces combine the exceptional strength of a (read more)
Browse Furnaces (industrial) Datasheets for Inductotherm Group -
ISM is a method of melting metals in a segmented, water-cooled copper vessel, under vacuum or controlled atmosphere in an induction coil. Advantages • For reactive metals which cannot be melted in a refractory crucible due to metal/crucible reactions, ISM offers (read more)
Browse Furnaces (industrial) Datasheets for Inductotherm Group -
Standard designs are available and Consarc also welcome the opportunity to design a specific furnace to meet individual customer requirements and applications. The design utilizes a water-cooled vacuum chamber, providing optimum access for cold charging and servicing in a batch mode of (read more)
Browse Vacuum Furnaces Datasheets for Inductotherm Group -
costs, increase productivity and enhance safety at your foundry or melt shop. Inductotherm products include a complete line of: Coreless Induction Melting Furnaces Crucible Melting Furnaces Holding Systems Automated Pouring Systems ARMS® (read more)
Browse Foundry Equipment and Supplies Datasheets for Inductotherm Group -
is specially designed to satisfy the Indian market requirements, and offers an outstanding performance for steel melting in coreless induction (read more)
Browse Refractory Shapes Datasheets for Saint-Gobain Performance Ceramics & Refractories -
induction melting furnace. The molten alloy is either poured into a mold, onto a chill plate, or processed in a strip caster – a device that forms a thin, continuous metal strip. These cured metal “chunks” are crushed and pulverized to form a fine powder ranging from 3 to 7 microns in (read more)
Browse Industrial Magnets Datasheets for Arnold Magnetic Technologies -
, the crucible remains intact. It can be used for alloy melting, rare earth and ceramic sintering, and electron beam evaporation coatings. It is commonly used in thermal (read more)
Browse Industrial Ceramic Materials Datasheets for Xiamen Innovacera Advanced Materials Co., Ltd.
More Information Top
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Ageing of rapidly quenched aluminium alloys
Ternary alloys with magnesium were melted in an induction furnace in the argon atmosphere at the pressure of 2 × 105Pa.
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Austempered Ductile Iron Castings for Chassis Applications
The ductile base iron for the castings is melted in coreless induction furnaces and magnesium treated using the Fischer converter process.
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Microstructure and mechanical properties of Mg-4Y-2.5Nd-0.6Zr alloy--《Ordnance Material Science and Engineering》2013年05期
RONG Jun,SONG Li-ming,LI Juan(School of Material and Metallurgy;Northeastern University;Shenyang;China;110004);Design and Development of Highly Efficient Modular Magnesium Alloy scraps recycling induction melting furnace [J];Sichuan Nonferrous Metals;2010-03 .
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High temperature ductility of N65M type corrosion-resistant alloy melted in various ways
Addition- ally microalloying the open induction furnace melted N65M alloy with magnesium (curves 2 on Fig. la, and Fig. 2a, b) and with yttrium (curves 4 on Fig. la, and Fig. 2a, b) raised the impact strength and the relative necking to …
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Recycling Rare-Earth-Metal Wastes by Pyrometallurgical Methods
Another variant of the process entails the combined melting of magnesium and scrap in an induction furnace with an inert atmosphere and subsequent vacuum distillation of the magnesium.
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Desulfurization of pig iron outside the furnace with passivated magnesium obtained from magnesium production wastes
To cover some of the shortage of magnesium, the combine developed a technology to obtain a passivated magnesium ingot from sludges formed during the melting of a secondary magnesium alloy in induction furnaces in the passivation section.
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Studies of Interfacial Heat Transfer Resistances and Characterization of Strip Microstructures for Al-Mg Alloys Cast on a Single Belt Casting Simulator
An induction furnace was used to melt the aluminum magnesium alloys and a ladle spoon was used to pour the molten metal into the mould.
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Titanium '95
· The titanium formed was fed into a plasma and induction heating furnace and during melting , the magnesium and magnesium dichloride evaporated and separated from the titanium, producing good ingot .
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Superplasticity of the Mg-Ca eutectic alloy
A master alloy of ~45wt% Ca was first prepared by induction furnace melting of the constituent elements, magnesium of 99.9% and calcium of 99.5% purity, in an amorphous carbon crucible under a positive pressure of argon.
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Synthesis of Mg2 Cu and MgCu2 nanoparticles in a KCl-NaCl-MgCl2 melt
2) under milder conditions than do the Mg2Cu samples prepared through standard melting of magnesium and copper in a vacuum induction furnace (at the same time, this effect can be partially due to the difference in particle size between the Mg2Cu powders …