Product Description:
Product Name 1370 ¢J Vacuum brazing furnace
Product Specifications Maximum working temperature: 1370 ¢J Work areas: 24x24x26 in Voltage: 460V/60HZ Temperature control: S.C.R phase control module Temperature accuracy: + -2 ¢J Vacuum: 1x10-6 torr
Applications Aerospace industry, electronics technology, nuclear industry, the welding of metal and ceramic Stainless steel melting treatment, titanium heat treatment, Aerospace industry, heat treatment, Heat treatment of bearing steel, high purity alloy heat treatment, Die steel, high speed steel heat treatment
Product Description:
Product Specifications: Work are 200x240x200 mm Power supply: 380V/60HZ Temperature control: S.C.R phase control module Heating system: graphite heating Vacuum: 1x10-2
Product Description:
Heat-treating parts in a vacuum furnace is a well-established practice in the aerospace (OEM and repair), land based turbines, automotive and tool industries. In the vacuum environment, no surface modifications such as carburization, oxidation, scaling or decarburization occur. Parts emerge from the vacuum furnace bright and clean and in some cases, ready to use. Vacuum Heat Treating Furnace can be applied to a wide variety of heat treatment processes- hardening, tempering, aging, annealing. The use of the vacuum heat treatment furnace offers possibility of influencing factors and of carrying
Product Description:
Heat-treating parts in a vacuum furnace is a well-established practice in the aerospace (OEM and repair), land based turbines, automotive and tool industries. In the vacuum environment, no surface modifications such as carburization, oxidation, scaling or decarburization occur. Parts emerge from the vacuum furnace bright and clean and in some cases, ready to use. Vacuum Heat Treating Furnace can be applied to a wide variety of heat treatment processes- hardening, tempering, aging, annealing. The use of the vacuum heat treatment furnace offers possibility of influencing factors and of carrying
Product Description:
Vacuum Induction Melting, initially used to meet alloy requirements of specialized industries, is becoming more and more essential in the production of high performance materials for many applications. These are used in very demanding situations, including super alloys for high temperature applications, stainless steels for nuclear applications, and very clean magnetic alloys for high permeability.
Therefore, VIM Furnace is an indispensable tool in the manufacture of special alloys, which must be melted under vacuum or in an inert gas atmosphere because of their reactivity with atmospheric
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