Autonomous Vehicle Engineering Challenges: A Steel E-Motive Student Engagement – Side Door Functionality and Door Hinge Assessment
As an organization focused on advancing the advantages of steel to the automotive, autonomous vehicle, and future mobility industries, WorldAutoSteel…
Steel E-Motive Addresses Autonomous Vehicle Safety Challenges
As robotaxi companies in the USA prepare to launch their autonomous vehicles in more cities, safety is in the spotlight…
Resistance Spot Welding: 5T Dissimilar Steel Stack-ups for Automotive Applications
Urbanization and waning interest in vehicle ownership point to new transport opportunities in megacities around the world. Mobility as a…
Stronger AHSS Knowledge Required for Metal Stampers
This month’s blog was contributed by Peter Ulintz, Precision Metalforming Association. This content originally appeared in the September 2023 issue…
Steel E-Motive: A Future Mobility Concept Paving the Way to Net Zero Emissions
WorldAutoSteel’s global automotive steel suppliers have conducted extensive research that illuminates a path forward. The Steel E-Motive concept – borne…
U-13
Citation U-13. Peter Ulintz, Precision Metalforming Association. This section originally appeared in the September 2023 issue of MetalForming Magazine under…
Steel E-Motive: Autonomous Vehicles That Only Steel Can Make Real
The Steel E-Motive program–commissioned by WorldAutoSteel in partnership with Ricardo plc–has developed the world’s first fully autonomous electric vehicle body…
S-114
Citation S-114 Courtesy of Schuler North America, Canton, MI
Resistance Spot Welding: 3T and 4T Dissimilar Steel Stack-ups for Automotive Applications
Car body-in-white (BIW) structures, such as pillars and rails, are increasingly made of complex stack-ups of advanced high-strength steels (AHSS)…