The diagnostic calorimeter STRIKE will be used to characteriz e the SPIDER beam, by measuring bea m uniformity, beam let divergence and stripping losses . The calorimeter is installed inside the SPIDER vacuum vessel and the core of the diagnostic corresponds to 16 Carbon - Fibre - carbon - matrix Composite (CFC) tiles . The present report describes: - the mechan ical characterisation of the CFC material; - the thermo - mechanical tests of the CFC prototype tiles performed at the GLADIS facility at IPP - Garching; - the simulations devoted to the interpretation of the experimental characterisations and tests. The results a re contained in the annexed documents.
Thermo-mechanical characterisation and simulations of CFC tiles for STRIKE
Dalla Palma M;Serianni G
2017
Abstract
The diagnostic calorimeter STRIKE will be used to characteriz e the SPIDER beam, by measuring bea m uniformity, beam let divergence and stripping losses . The calorimeter is installed inside the SPIDER vacuum vessel and the core of the diagnostic corresponds to 16 Carbon - Fibre - carbon - matrix Composite (CFC) tiles . The present report describes: - the mechan ical characterisation of the CFC material; - the thermo - mechanical tests of the CFC prototype tiles performed at the GLADIS facility at IPP - Garching; - the simulations devoted to the interpretation of the experimental characterisations and tests. The results a re contained in the annexed documents.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
