Researchers from AET Integration, Inc. worked on developing welding techniques that mitigated delayed cracking issues when laser welding Advanced High-Strength Steels (AHSS) and 3rd Gen AHSS.| AHSS Guidelines
Tensile testing is one of the most basic formability characterization methods available. Results from tensile testing are a key input into metal forming simulations.| AHSS Guidelines
Predicting the press forces needed initially to form a part is known from a basic understanding of sheet metal forming. Different methods are available to calculate drawing force, ram force, slide force, or blankholder force. The press load signature is an output from most forming-process development simulation programs, as well as special press load monitor.| AHSS Guidelines
Tensile property characterization of mild and high strength low alloy steel (HSLA) traditionally was tested only in the rolling direction and included only yield strength, tensile strength, and total elongation.| AHSS Guidelines
For many years, steel producers and stamping plants have gathered the mechanical properties of sheet metal. Individuals recorded properties such as yield strength, n-value and R-value to name a few. As new materials are introduced into the stamping plants, new mechanical properties tests are being discussed.| AHSS Guidelines
Steels with a fully martensitic microstructure are associated with the highest tensile strength – grades with a tensile strength of 2000 MPa is commercially available, and higher strength levels are under development.| 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
In this edition of AHSS Insights, George Coates and Menachem Kimchi get back to basics with important fundamentals in forming and joining AHSS. As the global steel industry continues its development of Advanced High-Strength Steels (AHSS), including 3rd Gen products with enhanced formability, we’re reminded that successful application is still dependent on the fundamentals, both […]| AHSS Guidelines
Citation: L-37. S. Li and H. Luo, “A Novel High-Strength Oxidization-Resistant Press Hardening Steel Sheet Requiring No Al–Si Coating,” in: The Minerals, Metals & Materials Society (eds) TMS 2020 149th Annual Meeting & Exhibition Supplemental Proceedings. The Minerals, Metals & Materials Series. Springer, Cham., doi.org/10.1007/978-3-030-36296-6_47; Related Posts Filter by Post type Post Page Category homepage-featured-top […]| AHSS Guidelines
M-68. Munro Live – Munro and Associates. (2023, May 19). This is NOT Lean Design: Hummer EV Battery Pack Breakdown. Related Posts Filter by Post type Post Page Category Citations homepage-featured-top main-blog Blog Production Managers Tool & Die Professionals Steel Grades AHSS 1stGen AHSS 3rdGen AHSS 2ndGen AHSS Metallurgy Lower Strength Steels Conventional HSS Sort […]| AHSS Guidelines
H-66. G.T. Halmos (Editor) Roll Forming Handbook (1st ed.). CRC Press, 2005. doi.org/10.1201/9781420030693. Related Posts Filter by Post type Post Page Category homepage-featured-top main-blog Blog Production Managers Tool & Die Professionals Steel Grades AHSS 1stGen AHSS 3rdGen AHSS 2ndGen AHSS Metallurgy Lower Strength Steels Conventional HSS Roll Forming Sort by Title Relevance Cold Stamped or […]| AHSS Guidelines