Stamped parts are increasingly sensitive to variations in tooling, material, and press behavior—especially with the rise of high‑strength steels and demanding Class‑A surface requirements. Traditional simulation methods often assume rigid tools and ideal press conditions, leaving manufacturers vulnerable to unexpected shape deviations, die recuts, and cosmetic defects that only emerge during try‑out.
In this webinar, we introduce Keysight Stamping, a next‑generation virtual stamping solution that captures the real-world physics impacting part quality. You’ll learn how deformable tool modeling reveals the influence of tool and press distortion, how multi‑operation (multi‑OP) compensation reduces try‑out loops, and how Virtual Laser Retouching (VLR) predicts Class‑A cosmetic issues before they appear. We will also demonstrate how Keysight Stamping helps manufacturers identify edge‑crack risks in high‑strength steel components early—avoiding costly redesigns and delays.
Join us to see how global OEMs and suppliers are leveraging Keysight Stamping to cut iterations, improve first‑time‑right outcomes, and accelerate the delivery of higher‑quality stamped parts.
Who should attend this event?
Stamping engineers, tooling and die designers, manufacturing and process engineers, CAE analysts, and quality specialists who work with high‑strength steels or Class‑A panels will benefit from this session. It’s also ideal for automotive OEM and Tier‑1 teams looking to reduce try‑out loops, avoid die recuts, and improve first‑time‑right stamping results using Keysight Stamping.
