July 26th, 2010 Webinar September 29th, 2010 Inductoheat & Radyne Present A Webinar On: AVOIDING PREMATURE COL FAILURES. DESIGN AND FABRICATION OF LONG LASTING INDUCTORS. Presenter – Dr. Valery Rudnev, FASM Duration 1 hour: Introduction (3 min) […] READ MORE »
July 22nd, 2010 Designing inductors for heating internal surfaces Induction heating of the internal surfaces of a workpiece for applications such as hardening, tempering, annealing, shrink fitting, and brazing has several unique features related to the physics of the […] READ MORE »
July 15th, 2010 Radyne Solutions for the Munitions Industry Radyne offers many fully integrated induction heating systems for the production of munitions which are utilized by both the military and commercial munitions industries. Radyne bonding and annealing systems are […] READ MORE »
July 8th, 2010 Computer Modeling with Spinduction Numerical computer modeling is one of the major factors in successful design of induction heating systems. In the fast-pace global economy, the ability of induction heating manufacturers to minimize the […] READ MORE »
June 10th, 2010 Coil Failures: Clamshell Inductors pt. 9 Silver alloy plating is commonly used in an attempt to improve coil life and reduce electrical resistance of coil clamping areas for clamshell inductors. Unfortunately, it does not appreciably improve […] READ MORE »
June 3rd, 2010 Intricacies of Induction Tempering Auto Industry Tempering is always a reasonable comprimize between maintaining the required hardness and obtaining low-stress, tough and ductile microstructure in the metal. Generally speaking, there are two different types of stresses: […] READ MORE »
May 24th, 2010 Coil Failures: pt. 11a Frequency Selection Frequency selection not only affects the performance of the induction system but it also has a significant effect on coil life. Choice of an improper frequency is the most common […] READ MORE »
May 13th, 2010 Induction Heating: Eliminate Cracking at Holes pt. 1 There are two factors that can cause the overheating: • An increase of power density (heat source) due to the redistribution of eddy current flow. • The lack of adjacent […] READ MORE »
May 6th, 2010 Single Coil Dual Frequency: Gear Hardening pt. 3 As a rule, when it is necessary to harden only the tooth tips, a higher frequency and high power density should be applied; to harden the tooth roots, use a […] READ MORE »
April 26th, 2010 Induction vs Oven Tempering pt. 2 It has been shown that a comparison of the properties of carbon steel parts processed with both types of tempering regardless of the identical hardness (48HRC) the tempered carbon steel […] READ MORE »
April 23rd, 2010 Induction Hardening: Gears & Critical Components Gear performance characteristics (including load condition and operating environment) dictate the required surface hardness, core hardness, hardness profile, residual stress distribution, grade of steel, and the prior microstructure of the […] READ MORE »
April 12th, 2010 Induction heating misconceptions Whenever someone is talking about induction heating, reference is often made to the phenomenon of skin effect. In most publications devoted to induction heating distributions of current density and power […] READ MORE »
