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Supplier: Inductotherm Group
Description: VAR Furnaces for melting material that have already been melted and cast into electrodes that are near their full packing density. Consarc utilizes fully computerized controls to optimize reproducibility and ease of operation. Custom furnaces in laboratory scale or for
- Application: Foundry / Melting, Industrial
- Width / Tube O.D.: 1050 to 6000 mm
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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: 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: Consarc offers Induction Skull Melting (ISM) furnaces which is a method of melting metals in a segmented water-cooled copper vessel while under vacuum or controlled atmosphere using an induction coil. Consarc’s tandem chamber design is designed for the production of high
- Application: Foundry / Melting
- Atmosphere: Vacuum
- Heat Source / Transfer: Induction
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Supplier: Tinius Olsen, Inc.
Description: The Tinius Olsen Compact Split furnace provides a means of performing tensile tests within a temperature range of up to 1200°C/2200°F or 1400°C/2500°F The furnace is supported on a sliding rail located behind the columns of the testing machine. When the furnace is not in
- Application: Laboratory
- Atmosphere: Air / Oxidizing
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Supplier: Tinius Olsen, Inc.
Description: Suitable for most twin screw materials testing machines, the Tinius Olsen Environmental Chamber provides a means for performing physical tests within a temperature range of Ambient-600°C (Ambient-1112°F). Air is forced over the heating elements located in an insulated enclosure protecting the user
- Application: Laboratory
- Atmosphere: Air / Oxidizing
- Height: 610 mm
- Length (Chamber / Tube): 230 mm
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Supplier: Tinius Olsen, Inc.
Description: Suitable for most twin screw materials testing machines, the Tinius Olsen Environmental Chamber provides a means for performing physical tests within a temperature range of Ambient-350°C (Ambient-662°F). Air is forced over the heating elements located in an insulated enclosure protecting the user
- Application: Laboratory
- Atmosphere: Air / Oxidizing
- Height: 610 mm
- Length (Chamber / Tube): 230 mm
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Supplier: Tinius Olsen, Inc.
Description: The Tinius Olsen high temperature furnace provides a means of performing tensile tests within a temperature range of ambient to 1200°C/2200°F. The furnace is supported on a frame post located behind the columns of the testing machine. When the furnace is not in use, it can be
- Application: Laboratory
- Atmosphere: Air / Oxidizing
- Configuration: Tube
- Controller Type: Programmable
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Supplier: Trent, Inc.
Description: The TRENT M2-DKR High Temperature Furnace heating elements are silicon carbide type resistors located beneath a ceramic hearth plate, which protects against scale and breakage. The door is vertical lift counterweighted to provide a tight seal with the brick-lined furnace front. It is
- Application: Aging, Annealing, Brazing / Soldering, Firing / Sintering, Heat Treating, Laboratory, Preheating
- Atmosphere: Air / Oxidizing
- Configuration: Box, Bench / Cabinet
- 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 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: Maximum Temperature: 1000°F / 538°C Used to melt lead and babbitt. TRENT Stationary Melting Pots - MB 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: 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: 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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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: Isotech North America
Description: The recent addition to our long-established range of metrology furnaces offers an alternative for those who prefer 3-Zone furnaces to Heat-Pipe technology. The 3 Zones create a controlled volume of constant temperature within the furnace in which High-Temperature Fixed Points
- Application: Annealing, Laboratory
- Atmosphere: Air / Oxidizing
- Configuration: Top Loading
- Controller Type: Programmable
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Supplier: Isotech North America
Description: The Isotech Medium Temperature Furnace is designed specifically to realize and maintain the freeze plateau of Isotech Indium, Tin, Zinc and Aluminum Cells, for the calibration of thermometers on ITS-90. It can also be used with an insert, as an annealing facility of the highest order for SPRT
- Application: Laboratory
- Atmosphere: Air / Oxidizing
- Configuration: Top Loading
- Controller Type: Single Set Point
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Supplier: Isotech North America
Description: Heatpipes provide the ideal conditions for the creation and maintenance of freeze points from ITS-90. 1. The furnace core is an especially-designed stress-free isothermal heat pipe, which provides a very low thermal gradient along the core working length. The furnace heater is of the
- Application: Laboratory
- Atmosphere: Air / Oxidizing
- Configuration: Top Loading
- Controller Type: Programmable
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Supplier: Isotech North America
Description: The Annealing Furnace, model 414, is designed to heat, anneal and cool SPRT's (Standard Platinum Resistance Thermometers) prior to calibration. The temperature range of the Furnace - from ambient to 1000°C enables all types of SPRT's to be annealed. One of the duties of a calibration
- Application: Annealing, Laboratory
- Atmosphere: Air / Oxidizing
- Configuration: Top Loading, Bench / Cabinet
- Controller Type: Programmable
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Supplier: Plansee SE
Description: that can damage your products. In contrast, metallic furnaces with hot zones from Plansee do not suffer from this problem. They are exceptionally clean and guaranteed carbon-free. Below is a summary of the advantages you benefit from: higher ultimate vacuums No
- Application: Annealing, Brazing / Soldering, Firing / Sintering, Heat Treating
- Atmosphere: Air / Oxidizing, Inert, Vacuum
- Process Temperature: 1000 to 2800 C
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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 -
Inductotherm Group companies manufacture Consarc® Vacuum Arc Remelting (VAR) furnaces, essential equipment in the vacuum and controlled atmosphere melting industry, which has broken new ground in commercial ingot production. Consarc VAR furnaces combine state-of-the-art computerized controls (read more)
Browse Vacuum Furnaces Datasheets for Inductotherm Group -
industrial, and automotive industries. Our standard and custom-designed solutions are used for a variety of processes, including melting, casting, re-heating, annealing and coating. Innovative solutions for a wide range of furnaces Our temperature sensors and (read more)
Browse Temperature Indicators Datasheets for Conax Technologies
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Effect of boron and yttrium on the phase composition and the microstructure of natural Nb-Si composites
Alloyed 10–15 g specimens were melted from the base alloy with an addition of boron and yttrium powders in a 5SA Centorr/ Vacuum Industries laboratory arc melting furnace at a copper bottom in a helium medium using a nonconsumable tungsten electrode.
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Microstructural Design of Advanced Engineering Materials
All materials were subjected to the same manufacturing route, namely vacuum arc melting in a laboratory furnace .
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Spongy titanium alloyed with oxygen for the production of titanium alloys
An electrode was melted in a laboratory vacuum - arc furnace into a copper water-cooled crystallizer under the following conditions: a current strength of 3 kA, a voltage of 40 V, and a pressure of 0.13–0.40 Pa.
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Melting square- and rectangular-cross-section ingots in vacuum arc furnaces
The experimental melting was carried out in laboratory vacuum arc furnaces L225K (made by Gereus), Ts~P-317 (TsNIIChM), and in industrial furnaces of Gereus (made by SONP in Kladno), DSV-3.2G, and DSV-6.3G (metallurgical plants of the USSR).
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The Effect of Pre-Oxidation Treatment on the High-Temperature Oxidation of Co–Re–Cr Model Alloys at Laboratory Air
The alloys were melted in a 60 kW laboratory vacuum arc furnace .
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Structure and mechanical properties of alloys Ti-2.2% Al-2.2% V-2.2% Mo-2.5% Fe and Ti-2.2% Al-5% Fe equivalent to alloy VT16
We melted the ingots in a laboratory vacuum arc furnace by the method of double remelting.
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NbTi superconducting composite with high critical current density
The alloy f o r fabricating m u l t if ilamentary composite was Nb-5Cwt$Ti alloy, which was pro- duced i n our laboratory in a vacum arc melting furnace and a vacuum arc skull furnace.
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Properties of 12% Cr steels in relation to alloying
The steels were melted in the laboratory in 30 kg induction furnaces , followed by vacuum arc remelting.
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A New Graphite Resistor Vacuum Furnace And Its Application In Melting Zirconium - Document Summary
Zirconium metal had previously been melted at the Albany Laboratory of the Bureau of Mines in a vacuum arc furnace on a water-cooled plate, using a movable tungsten top electrode.2 When larger furnace capacities were desired, this type of construction …
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Technical Papers and Discussions -Miscellaneous Metals and Alloys - A New Graphite Resistor Vacuum Furnace and Its Application in Melting Zirconium (Metals Tec...
Zirconium metal had previously been melted at the Albany Laboratory of the Bureau of Mines in a vacuum arc furnace on a water-cooled plate, using a movable tungsten top electrode.
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