Plasma Arc Furnace

Description: -tube design used at NIST. 2. The heat pipe is designed so that the inner wall is not subject to thermal expansion stresses from the outer wall before the heat pipe reaches conduction temperature. The working fluid is permanently and safely sealed within the plasma-arc-welded enclosure. 3.

• Application: Laboratory
• Atmosphere: Air / Oxidizing
• Configuration: Top Loading
• Controller Type: Programmable

Description: thermal gradient along the core working length. The heatpipe is designed so that the inner wall is not subject to thermal expansion stresses from the outer wall before the heat pipe reaches conduction temperature. The working fluid is permanently and safely sealed within the plasma-arc welded

• Application: Laboratory
• Atmosphere: Air / Oxidizing
• Computer Interface: Yes
• Configuration: Top Loading, Bench / Cabinet

Description: by ISO 13578:2017: - induction furnace; - resistance-arc furnace (e.g. submerged arc furnace); - electron beam furnace; - plasma furnace; - other electrical furnaces used in secondary steelmaking, e.g. ladle furnace. ISO

Description: For static melting or ingot withdrawal, adjustable slab width or thickness

• Application / Industry: Nickel Base / Superalloys, Precious / Red Metals, Titanium / Reactive Metals
• Atmosphere Type: Inert, Reducing, Vacuum
• Bottom Type / Pour Method: Flat Bottom, Pouring / Metering Hole
• Crucible Products: Melting Hearth / Tundish Liner, Other

Description: Modular construction through assembly welding or forged designs

• Application / Industry: Nickel Base / Superalloys, Precious / Red Metals, Titanium / Reactive Metals
• Atmosphere Type: Inert, Reducing, Vacuum
• Crucible Products: Melting Hearth / Tundish Liner, Other
• Furnace Type: Arc / Plasma Melting, Electron Beam Melting, Evaporator / CVD Furnace, Induction

Description: Water cooled copper hearths hold reactive alloys during refining & melting

• Application / Industry: Nickel Base / Superalloys, Precious / Red Metals, Titanium / Reactive Metals
• Atmosphere Type: Inert, Reducing, Vacuum
• Bottom Type / Pour Method: Flat Bottom, Pouring Spout, Other
• Crucible Products: Melting Hearth / Tundish Liner, Other

Description: Water cooled copper components contain metal during continuous casting

• Application / Industry: Nickel Base / Superalloys, Precious / Red Metals, Titanium / Reactive Metals
• Atmosphere Type: Inert, Reducing, Vacuum
• Bottom Type / Pour Method: Pouring / Metering Hole, Pouring Spout
• Crucible Products: Melting Hearth / Tundish Liner, Other

Description: conventional forging and rolling equipment found in primary ferrous and nonferrous plants. The alloy is usually multiple melted in arc furnaces (including furnaces such as plasma arc and electron beam) of a type conventionally used for reactive metals.

Description: Specifications AMS 5796B MIL-R-5031B Class 13 (AMS 5795B for Flux-Coated Electrode) Description Washington Alloy L605 is a cobalt base filler metal used for MIG, TIG and plasma arc welding of Haynes? No. 25 to itself or to nickel base or stainless steel

Description: This specification covers hafnium alloyed niobium ingots prepared by vacuum- or plasma- arc melting or electron-beam furnace melting, or a combination of these methods, to produce consolidated metal for processing to various mill shapes. The material shall conform to the

Description: working fluid is permanently and safely sealed within the plasma-arc welded enclosure. The range of the higher temperature furnace is suitable for Aluminum, Silver, Gold or Copper Blackbody Fixed Point Cells. Connections are provided for a water supply of 0.5 to 1 liter per minute.

• Calibrator Style: Fixed, Other Specific Calibration?
• Display Type: Digital Readouts
• Local Interface: Digital Front Panel
• Process, Environmental, Thermodynamic Properties: Temperature

Description: furnaces (including furnaces such as plasma arc and electron beam) of a type conventionally used for reactive metals. Heat analysis shall conform to the chemical composition requirements prescribed for aluminum, niobium, tantalum, iron, oxygen, carbon, nitrogen, hydrogen,

Description: furnaces (including furnaces such as plasma arc and electron beam) of a type conventionally used for reactive metals. Heat analysis shall conform to the chemical composition requirements prescribed for aluminum, niobium, tantalum, iron, oxygen, carbon, nitrogen, hydrogen,

Description: optical solution that best suits your needs. Sapphire Windows in Extreme Temperature Environments Sapphire’s maximum temperature rating of almost 2000 ° C makes it ideal for lamp shields, high temperature combustion chambers, furnace systems, and gas processing. A supported

• Materials: Sapphire