Dr. Lode Vandenbossche

Development Engineer Electrical Steels ArcelorMittal

Dr Lode Vandenbossche is ArcelorMittal's development engineer for electrical steels. Together with ArcelorMittal’s technico-commercial, R&D and industrial teams, he translates the customer specifications for future applications into the development of improved generations of electrical steel grades, for the full variety of mainly rotating applications. Lode Vandenbossche holds a PhD in electromechanical engineering, and from 2010 to 2018, as research engineer at ArcelorMittal R&D, his focus was - and still is - on electrical steels from the application point-of-view.


Full Agenda Sessions

Highly Efficient, Power Dense and Sustainable Traction Motor Designs: iCARe® 420 Save Higher-Strength Low-Loss Electrical Steels

  • ArcelorMittal’s iCARe® 420 Save electrical steel grades offer high yield strength levels - guaranteed above 420 MPa - without affecting its magnetic properties for traction motor applications
  • ArcelorMittal’s iCARe® 420 Save grade is the ideal choice to simultaneously provide a higher yield strength and a higher fatigue limit necessary for optimum rotor designs, as well as low magnetic losses in a wide frequency range for both stator and rotor core components.
  • These properties enable optimal motor designs, resulting in higher energy savings, increased motor compactness, and/or more sustainable designs – with a reduced usage of copper and rare-earth permanent magnets.
  • Case studies to illustrate the added value of iCARe® 420 Save grades along different axes of sustainable traction motor design for e-mobility applications

 

In Partnership with ArcelorMittal

Tuesday 10 May 13:30 - 14:00 Room 1

Add to calendar 05/10/2022 13:30 05/10/2022 14:00 Highly Efficient, Power Dense and Sustainable Traction Motor Designs: iCARe® 420 Save Higher-Strength Low-Loss Electrical Steels
  • ArcelorMittal’s iCARe® 420 Save electrical steel grades offer high yield strength levels - guaranteed above 420 MPa - without affecting its magnetic properties for traction motor applications
  • ArcelorMittal’s iCARe® 420 Save grade is the ideal choice to simultaneously provide a higher yield strength and a higher fatigue limit necessary for optimum rotor designs, as well as low magnetic losses in a wide frequency range for both stator and rotor core components.
  • These properties enable optimal motor designs, resulting in higher energy savings, increased motor compactness, and/or more sustainable designs – with a reduced usage of copper and rare-earth permanent magnets.
  • Case studies to illustrate the added value of iCARe® 420 Save grades along different axes of sustainable traction motor design for e-mobility applications

 

In Partnership with ArcelorMittal

CWIEME E-Mobility Stage

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