Dynamic Testing and Characterization of Advanced Materials in a New Experiment at CERN HiRadMat Facility

An innovative and comprehensive experiment (named "Multimat") was successfully carried out at CERN HiRadMat facility on 18 different materials relevant for Collimators and Beam Intercepting Devices. Material samples, tested under high intensity proton pulses of 440 GeV/c, exceeding the ene...

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Detalles Bibliográficos
Autores principales: Bertarelli, Alessandro, Accettura, Carlotta, Berthomé, Emmanuel, Bianchi, Laura, Bolz, Philipp, Carra, Federico, Fichera, Claudio, Frankl, Matthias, Furness, Thomas, Gobbi, Giorgia, Grosclaude, Philippe, Guardia Valenzuela, Jorge, Guinchard, Michael, Lechner, Anton, Mollicone, Pierluigi, Pasquali, Michele, Portelli, Marcus, Redaelli, Stefano, Rigutto, Emilien, Sacristan De Frutos, Oscar, Simon, Pascal
Lenguaje:eng
Publicado: 2018
Materias:
Accelerators and Storage Rings
Acceso en línea:https://dx.doi.org/10.18429/JACoW-IPAC2018-WEPMF071
https://dx.doi.org/10.1088/1742-6596/1067/8/082021
http://cds.cern.ch/record/2653741
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author Bertarelli, Alessandro
Accettura, Carlotta
Berthomé, Emmanuel
Bianchi, Laura
Bolz, Philipp
Carra, Federico
Fichera, Claudio
Frankl, Matthias
Furness, Thomas
Gobbi, Giorgia
Grosclaude, Philippe
Guardia Valenzuela, Jorge
Guinchard, Michael
Lechner, Anton
Mollicone, Pierluigi
Pasquali, Michele
Portelli, Marcus
Redaelli, Stefano
Rigutto, Emilien
Sacristan De Frutos, Oscar
Simon, Pascal
author_facet Bertarelli, Alessandro
Accettura, Carlotta
Berthomé, Emmanuel
Bianchi, Laura
Bolz, Philipp
Carra, Federico
Fichera, Claudio
Frankl, Matthias
Furness, Thomas
Gobbi, Giorgia
Grosclaude, Philippe
Guardia Valenzuela, Jorge
Guinchard, Michael
Lechner, Anton
Mollicone, Pierluigi
Pasquali, Michele
Portelli, Marcus
Redaelli, Stefano
Rigutto, Emilien
Sacristan De Frutos, Oscar
Simon, Pascal
author_sort Bertarelli, Alessandro
collection CERN
description An innovative and comprehensive experiment (named "Multimat") was successfully carried out at CERN HiRadMat facility on 18 different materials relevant for Collimators and Beam Intercepting Devices. Material samples, tested under high intensity proton pulses of 440 GeV/c, exceeding the energy density expected in HL-LHC, ranged from very light carbon foams to tungsten heavy alloys, including novel composites as graphite/carbides and metal/diamond without and with thin-film coatings. Experimental data were acquired relying on extensive integrated instrumentation (strain gauges, temperature sensors, radiation-hard camera) and on laser Doppler vibrometer. This allows investigating relatively unexplored and fundamental phenomena as dynamic strength, internal energy dispersion, nonlinearities due to inelasticity and inhomogeneity, strength and delamination of coatings and surfaces. By benchmarking sophisticated numerical simulations against these results, it is possible to establish or update material constitutive models, which are of paramount importance for the design of devices exposed to interaction with particle beams in high energy accelerators such as the HL-LHC or FCC-hh.
id oai-inspirehep.net-1697931
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2018
record_format invenio
spelling oai-inspirehep.net-16979312021-02-09T10:07:11Zdoi:10.18429/JACoW-IPAC2018-WEPMF071doi:10.1088/1742-6596/1067/8/082021http://cds.cern.ch/record/2653741engBertarelli, AlessandroAccettura, CarlottaBerthomé, EmmanuelBianchi, LauraBolz, PhilippCarra, FedericoFichera, ClaudioFrankl, MatthiasFurness, ThomasGobbi, GiorgiaGrosclaude, PhilippeGuardia Valenzuela, JorgeGuinchard, MichaelLechner, AntonMollicone, PierluigiPasquali, MichelePortelli, MarcusRedaelli, StefanoRigutto, EmilienSacristan De Frutos, OscarSimon, PascalDynamic Testing and Characterization of Advanced Materials in a New Experiment at CERN HiRadMat FacilityAccelerators and Storage RingsAn innovative and comprehensive experiment (named "Multimat") was successfully carried out at CERN HiRadMat facility on 18 different materials relevant for Collimators and Beam Intercepting Devices. Material samples, tested under high intensity proton pulses of 440 GeV/c, exceeding the energy density expected in HL-LHC, ranged from very light carbon foams to tungsten heavy alloys, including novel composites as graphite/carbides and metal/diamond without and with thin-film coatings. Experimental data were acquired relying on extensive integrated instrumentation (strain gauges, temperature sensors, radiation-hard camera) and on laser Doppler vibrometer. This allows investigating relatively unexplored and fundamental phenomena as dynamic strength, internal energy dispersion, nonlinearities due to inelasticity and inhomogeneity, strength and delamination of coatings and surfaces. By benchmarking sophisticated numerical simulations against these results, it is possible to establish or update material constitutive models, which are of paramount importance for the design of devices exposed to interaction with particle beams in high energy accelerators such as the HL-LHC or FCC-hh.An innovative and comprehensive experiment (named “Multimat”) was successfully carried out at CERN HiRadMat facility on 18 different materials relevant for Collimators and Beam Intercepting Devices. Material samples, tested under high intensity proton pulses of 440 GeV/c, exceeding the energy density expected in HL-LHC, ranged from very light carbon foams to tungsten heavy alloys, including novel composites as graphite/carbides and metal/diamond without and with thin-film coatings. Experimental data were acquired relying on extensive integrated instrumentation (strain gauges, temperature sensors, radiation-hard camera) and on laser Doppler vibrometer. This allows investigating relatively unexplored and fundamental phenomena as dynamic strength, internal energy dispersion, nonlinearities due to inelasticity and inhomogeneity, strength and delamination of coatings and surfaces. By benchmarking sophisticated numerical simulations against these results, it is possible to establish or update material constitutive models, which are of paramount importance for the design of devices exposed to interaction with particle beams in high-energy accelerators such as the HL-LHC or FCC-hh.CERN-ACC-2018-064oai:inspirehep.net:16979312018
spellingShingle Accelerators and Storage Rings
Bertarelli, Alessandro
Accettura, Carlotta
Berthomé, Emmanuel
Bianchi, Laura
Bolz, Philipp
Carra, Federico
Fichera, Claudio
Frankl, Matthias
Furness, Thomas
Gobbi, Giorgia
Grosclaude, Philippe
Guardia Valenzuela, Jorge
Guinchard, Michael
Lechner, Anton
Mollicone, Pierluigi
Pasquali, Michele
Portelli, Marcus
Redaelli, Stefano
Rigutto, Emilien
Sacristan De Frutos, Oscar
Simon, Pascal
Dynamic Testing and Characterization of Advanced Materials in a New Experiment at CERN HiRadMat Facility
title Dynamic Testing and Characterization of Advanced Materials in a New Experiment at CERN HiRadMat Facility
title_full Dynamic Testing and Characterization of Advanced Materials in a New Experiment at CERN HiRadMat Facility
title_fullStr Dynamic Testing and Characterization of Advanced Materials in a New Experiment at CERN HiRadMat Facility
title_full_unstemmed Dynamic Testing and Characterization of Advanced Materials in a New Experiment at CERN HiRadMat Facility
title_short Dynamic Testing and Characterization of Advanced Materials in a New Experiment at CERN HiRadMat Facility
title_sort dynamic testing and characterization of advanced materials in a new experiment at cern hiradmat facility
topic Accelerators and Storage Rings
url https://dx.doi.org/10.18429/JACoW-IPAC2018-WEPMF071
https://dx.doi.org/10.1088/1742-6596/1067/8/082021
http://cds.cern.ch/record/2653741
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