Inductotherm Group Datasheets for Vacuum Furnaces

Vacuum furnaces are heat-treating furnaces that use a low atmospheric pressure instead of a protective gas atmosphere. This helps to alleviate surface reactions.
Vacuum Furnaces: Learn more

Product Name Notes
As an alternative to resistance heating Consarc offers a wide range of high temperature Induction heated vacuum furnaces. Induction heating is a very robust configuration and is normally preferred for...
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 line of Vacuum Precision Investment Casting (VPIC) furnaces are uniquely designed to ensure the production of repeatable products with minimal maintenance and high furnace availability. Parts with an Equiax...
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...
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.
The removal of forming and pressing oils from components prior to further processing, particularly vacuum heat treatment and brazing, is an essential manufacturing step. This was historically achieved using trichlorethane...
The VCAP furnace is designed for Induction Melting a solid charge in an air atmosphere (or vacuum), with final degassing stage under vacuum. The final pouring of the metal is...
Vacuum heat treatment is a well established practice in the aerospace (OEM and repair), land based turbines, automotive and tool industries. Controlled thermal processing of components is carried out in...
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...