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Supplier: LECO Corporation
Description: For more than 50 years, LECO has provided top-quality ceramic products to industries worldwide, such as technical ceramics, powdered metal (PM), metal injection molders (MIM), and foundry and investment casting. Designed to support sintering operations at temperatures up to 3200°F
- Application / Industry: Aluminum Melting, Foundry / Casting , Iron & Steel Melting, Nickel Base / Superalloys, Precious / Red Metals, Titanium / Reactive Metals, Other
- Atmosphere Type: Air / Oxidizing
- Bottom Type / Pour Method: Flat Bottom, Pouring Spout, Other
- Crucible Products: Crucible - Conical / Tapered, Ladle Shroud / Liner
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Supplier: LECO Corporation
Description: For more than 50 years, LECO has provided top-quality ceramic products to industries worldwide, such as technical ceramics, powdered metal (PM), metal injection molders (MIM), and foundry and investment casting. Designed to support sintering operations at temperatures up to 3200°F
- Application / Industry: Foundry / Casting , Iron & Steel Melting, Other
- Atmosphere Type: Air / Oxidizing
- Bottom Type / Pour Method: Flat Bottom, Pouring Spout, Other
- Crucible Products: Crucible - Barrel / Bilge, Crucible - Conical / Tapered
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Supplier: LECO Corporation
Description: For more than 50 years, LECO has provided top-quality ceramic products to industries worldwide, such as technical ceramics, powdered metal (PM), metal injection molders (MIM), and foundry and investment casting. Designed to support sintering operations at temperatures up to 3200°F
- Application / Industry: Aluminum Melting, Foundry / Casting , Iron & Steel Melting, Nickel Base / Superalloys, Precious / Red Metals, Other
- Atmosphere Type: Air / Oxidizing
- Bottom Type / Pour Method: Flat Bottom, Pouring Spout, Other
- Capacity: 122 to 4750 cubic inches
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Supplier: Trent, Inc.
Description: and hot spotting that tends to shorten pot life. The pots are designed to provide full access for easy ladling or dipping. A control well opening at the bottom of the pot crucible effectively allows the control thermostat to sense the pot and material temperature to the maximum
- Application: Foundry / Melting
- Atmosphere: Air / Oxidizing
- Configuration: Top Loading
- Controller Type: Single Set Point
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AMETEK Land
Reduce Slag Carryover Reliably
impurities include gaseous carbon monoxide, silicon, manganese, phosphorus and liquid oxides that combine with lime and dolomitic lime, forming steel slag. At the end of the refining operation, the liquid steel is tapped (poured) into a ladle and the steel slag remains in the vessel and is subsequently (read more)
Browse Thermal Imagers Datasheets for AMETEK Land
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Indicates content that may require registration and/or purchase.
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Metalcasting competitiveness research. Final report
M. C. Ashton, "Gating System Design and Bottom - Pour Ladle Practice -Their InteractiveEffect-on &-Cast 28.
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Prediction of reoxidation inclusion composition in casting of steel
Such a situation could arise if the stream is highly fragmented by a poor nozzle design (for a bottom - pour ladle ) or by excessive splashing.
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PRACTICE OF CONTINUOUS CASTING FOR STEEL
The bottom - pour ladle is generally of standard design without any additional insulating layers of brick.
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Improving the quality of blast furnace merchant pig iron
The design of ~he hot iron ladle with the bottom pouring device may be recommended for wide use.
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Clean cast steel technology. Final report
The principles found in the modeling literature study were used in developing the water model apparatus, designing the experimental matrices, and conducting trials using bottom pour ladles .
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New Refractory Materials and Products for Metallurgy
It has developed corundum (CRTs) and corundum-spinel (CSRTs) refractory concretes (Table 1) designed for lining the walls and bottom of steel- pour- ing ladles , the permanent linings of tundishes, and the roofs of electric furnaces.
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A Review and Update of Advancements in Clean Cast Steel Technology
A literature study was used in developing the water modeling apparatus, designing the experimental matrices, and conducting trials using bottom pour ladles .
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A Fluidity Study of Semi-Solid Rheo-Slurry of AC4C Aluminum Alloy in Gravity Sand Casting
The equipment was designed in order to reduce pouring error by using bottom tapping and heated tapping ladle .
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Clean ferrous casting technology research. Final technical report, September 29, 1993--December 31, 1995
The quadrant ladle design did show some improvement in airentrainment rates compared to a teapot and bottom pour ladles used in these trials.
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CERAMIC ABSTRACTS
-The advantages and disadvan- tages of different types of ladles used in steel'foundries and the de- sign of nozzles and stoppers for bottom pouring are discussed.