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Wall cratering upon high velocity normal dust impact

P. Tolias, M. De Angeli, D. Ripamonti, S. Ratynskaia, G. Riva, Giambattista Daminelli, Monica De Angeli

2023Fusion Engineering and Design12 citationsDOIOpen Access PDF

Abstract

Dust-wall high speed impacts, triggered by the termination of runaway electrons on plasma facing components, constitute a source of erosion. Normal high velocity mechanical impacts of tungsten dust on bulk tungsten plates are reproduced in a controlled manner by light gas gun shooting systems. Post-mortem surface analysis revealed that three erosion regimes are realized; plastic deformation, bonding and partial disintegration. The large impact statistics allowed the extraction of reliable empirical damage laws in the latter regime, which can be employed for erosion estimates in future reactors.

Topics & Concepts

Impact craterErosionTungstenMaterials sciencePlasmaMechanicsPhysicsAstrobiologyGeologyNuclear physicsMetallurgyPaleontologyFusion materials and technologiesNuclear Materials and PropertiesLaser-Plasma Interactions and Diagnostics
Wall cratering upon high velocity normal dust impact | Litcius