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This work conducted an optimization in sheet metal blank's sizes for cold pressing automotive parts, comparing dimensional characteristics of automotive hood outer panels deep drawn with commonly used blank sizes for this process. As a result, it was possible to suggest modifications to smaller blank sizes, accordingly to the improvement accomplished in this work. The experimental study was conducted from observations in part's superficial aspects after its deep drawing process, which was realized in a commonly used tooling for automotive industry, with a blank's width reduction for the suggested case. The results showed a cost reduction opportunity based in this optimization.

The application of local advanced steels has challenges to overcome such as stampability requirements to meet manufacturing processes. Several technological alternatives have been studied to improve sheet steel formability and this work focuses on material selection. Dual Phase 800 steel has an important performance for structural parts involved in body-in-white (BIW) to reach durability and material impact resistance. On those alternatives references the coating application to reduce the friction coefficient and makes the formability process easier to mitigate drawing stamping issues. The study deals with DP800 formability analysis applied in automotive seats, mainly on anchorage components, searching for alternatives to a better material stampability and local availability with a lower cost. These tests approached formability simulations and FLD (Forming Limit Diagrams) to compare the imported DP800-Uncoated and the local DP800EG + Phosphate steels.