The ambitious scientific payload and crew delivery goals of imminent and future NASA missions are associated with challenging and complex vehicle entries. Advanced ablative Thermal Protection System (TPS) materials will be required for such missions, and, as such, a robust ablation modeling capability is critical to assessing performance by bridging the wide gap between ground testing and entry conditions. The traditional ablation modeling toolset - continuum thermal/materials response analysis - has grown recently to include high-fidelity, multi-scale, and multi-physics techniques that provide a more complete description of the rich physics and chemistry of ablation to better drive down risks related to extreme entries. The present talk provides a snapshot of ongoing NASA activities in ablation modeling, including a review of the current technical capabilities and tools at play within the Agency, the important role academia plays in supporting technical area advancements, and how such internal and external investments intersect with upcoming missions to drive down risks.


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    Titel :

    Overview of Ablation Modeling at NASA


    Beteiligte:
    Justin Haskins (Autor:in) / Michael Barnhardt (Autor:in) / Eric Stern (Autor:in) / Jeremie Meurisse (Autor:in) / Arnaud Borner (Autor:in) / Federico Semeraro (Autor:in) / Adam Amar (Autor:in) / Joshua Monk (Autor:in) / Brody Bessire (Autor:in) / Jay Feldman (Autor:in)

    Kongress:

    12th Ablation Workshop ; 2022 ; Lexington, KY, US


    Medientyp :

    Sonstige


    Format :

    Keine Angabe


    Sprache :

    Englisch




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