By analyzing the results of carefully designed material testing laboratory experiments that replicate actual service conditions, field performance can be predicted, and the best materials can be chosen. Modern induction heating provides many advantages over other heating methods. Heating with induction provides reliable, repeatable, non-contact and energy-efficient heat in a minimal amount of time. Induction heating also provides clean heating which is mandatory for the laboratory conditions.
Ambrell has offered cutting-edge material testing solutions since 1986. We offer exceptional customer service before and after the sale. Your material testing application will be analyzed and tested in the nearest Ambrell Applications Lab for free. You will receive a system recommendation designed to deliver the best possible solution for your requirements. Ambrell delivers the expertise, innovation and system quality to give your company a competitive edge.
Induction heating is a fast, efficient, precise and repeatable non-contact method for heating metals or other electrically-conductive materials. The material may be a metal such as brass, aluminum, copper or steel or it can be a semiconductor such as silicon carbide,carbon or graphite. To heat non-conductive materials such as plastics or glass, induction is used to heat an electrically-conductive susceptor, typically graphite, which then transfers the heat to the non-conducting material.
Read our 4-page brochure; learn more about how the science of induction technology can solve your precision heating problems.
The work coil is the component in the induction heating system that defines how effective and how efficiently your work piece is heated.
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