Electrification, Autonomous Driving & Shared Use
FOOTPRINT
13%
The contribution of steel to the average carbon footprint of a battery electric vehicle (BEV).
ENGINE WEIGHT
60%
Lighter electric motors at equal motor performance, when using the latest generation of electrical steels.
CRASH SAFETY
20%
Possible weight reduction in crash components at equal performance and costs.
APPLICATION AREAS
An integrated product offering for efficiency and high performance
Hi-Lite stator component
Non-grain oriented steels with fast bonding coatings

Reduce the size and weight of electric motors without loss of performance. Or increase performance and range. Hi-Lite unlocks a variety of new opportunities.

Electric motors
Hi-Lite?
Cylindrical Li-ion battery cans
Ultra-clean nickel-plated steel for cylindrical battery cans

Create highly efficient, safe and stable energy storage systems using Hilumin in steel-based cylindrical battery cans.

Energy storage and conversion
Hilumin?
Technician quality testing a panel
Extra formable ultra high strength steels

Use a broad range of advanced and ultra high strength steels, including special grades, like XPF and HyperForm, to achieve cost-effective lightweight design of crash components

Crash components
XPF? and HyperForm?
Body panel inspection by Tata Steel technician
Premium quality hot-dip galvanised steel for exposed applications

Improve the aesthetics of electric vehicles by an optimal paint appearance, even when employing modern, more cost-effective paint systems. Serica makes it happen.

Outer panels
Serica?
Automotive vehicle outer panels