Manufacturers embrace Advanced High Strength Steels as a cost-effective way to satisfy functional and regulatory requirements. The following are just a few examples where automakers have attributed improved performance and lightweighting due to the use of these advanced steels. KIA EV9 The Kia EV9, Kia’s first three-row electric flagship SUV, is based on the Electric […]| AHSS Guidelines
Steel E-Motive represents a fully autonomous ride sharing vehicle concept showcasing the strength and durability of steel with a critical focus on sustainability for reaching net zero emissions targets. The results are comfortable, safe and affordable body structures that support automakers in the continued development of Mobility as a Service (MaaS) ride sharing models. The […]| AHSS Guidelines
Part Integration with an innovative battery housing design and laser welded blank door ring can be used to reduce both mass and cost.| AHSS Guidelines
Reducing the number of individual parts within an automotive body structure, through part integration, can yield further cost, weight, and sustainability benefits without compromising performance.| AHSS Guidelines
Key materials characteristics for formed parts include strength, thickness, and corrosion protection. Tailored products provide opportunities to place these attributes where they are most needed for part function, and remove weight that does not contribute to part performance.| AHSS Guidelines
Metal stampers and die shops experienced with mild and HSLA steels often have problems making parts from AHSS grades. The higher initial yield strengths and increased work hardening of these steels can require as much as four times the working loads of mild steel.| AHSS Guidelines
The WorldAutoSteel Steel E-Motive program has been moving along now for nearly a year, and we’d like to share an update with you, our engineering colleagues, on some of the design decisions we’re facing. If you recall, the Steel E-Motive program is designing vehicle concepts for Mobility as a Service (MaaS), characterized by autonomous, electric, ride sharing vehicles.| AHSS Guidelines
As an organization focused on advancing the advantages of steel to the automotive, autonomous vehicle, and future mobility industries, WorldAutoSteel is committed to engaging with future engineers at universities and colleges around the globe. Our most recent engineering project, Steel E-Motive, was designed to unveil and meet the challenges of future autonomous vehicles that will […]| AHSS Guidelines
The Steel E-Motive autonomous vehicle program–commissioned by WorldAutoSteel in partnership with Ricardo plc–has developed the world’s first fully autonomous electric vehicle body structure concept purpose-fit for ride-sharing. This global steel industry initiative showcases the strength and durability of steel with an eye on playing a pivotal role in reaching net zero emissions targets.| AHSS Guidelines
WorldAutoSteel’s global automotive steel suppliers have conducted extensive research that illuminates a path forward for future mobility. The Steel E-Motive concept – borne of this research – can be a catalyst for reaching the Net Zero goal.| AHSS Guidelines
This month's blog (on the Steel E-Motive site) concentrates on the unique closure design developed for Steel E-Motive. A B-Pillar integrated configuration (red component on the right side door in the animation below), which specifies Advanced High-Strength Steels in the A- and B-Pillars.| AHSS Guidelines
Roll forming is no longer limited to producing simple circular, oval, or rectangular profiles. Advanced cross sections highlight some profile designs that aid in body structure stiffness and packaging space reductions.| AHSS Guidelines