Welding conditions affect the fume formation rate and welding current is considered to be the most important parameter. (W 55) (1)

Welding current = Corrente de soldagem

In induction welding, heat is generated through Joule losses from the induced eddy currents in response to the applied alternating magnetic field. (W 20) (2)

Eddy current = Corrente parasita

A rapid increase in anodic current during the test is often associated with the initiation and propagation of localised corrosion due to the formation of pits, the presence of crevices or a breakdown of the oxide film. (W 373) (3)

Anodic current = Corrente anódica

(1) The Effect Of Metal Transfer Modes On Welding Fume Emission In MIG/MAG Welding

Eur Ing Geoff Melton 

TWI Ltd., Granta Park, Abington, Cambridge, UK.

Eighth European Conference on Joining Technology, Eurojoin 8, Pula, Croatia, 24 – 26 May 2012.

Welding current = corrente de soldagem.

In induction welding, heat is generated through Joule losses from the induced eddy currents in response to the applied alternating magnetic field. (W 20) (2)

Novel Induction Heating Technique for Joining of Carbon Fibre Composites

Chris Worrall and Roger Wise 

TWI Ltd, Granta Park Great Abington, Cambridge, CB21 6AL, UK

Paper presented at SEICO 14: 35th International Technical Conference & Forum “Low Cost Composite Processing, from Aerospace OOA to Automotive Thermoplastic”, 2014.

(2) Novel Induction Heating Technique for Joining of Carbon Fibre Composites

Chris Worrall and Roger Wise 

TWI Ltd, Granta Park Great Abington, Cambridge, CB21 6AL, UK

Paper presented at SEICO 14: 35th International Technical Conference & Forum “Low Cost Composite Processing, from Aerospace OOA to Automotive Thermoplastic”, 2014.

(3) The corrosion behaviour of HVOF sprayed stainless steel and nickel alloy coatings in artificial seawater

A J Sturgeon 

Paper No.03245 presented at CORROSION 2003, NACE Conference, 16-21 March 2003, San Diego, CA, USA.