Numerical simulation of long rods impacted by particle beams

Abstract: Analytical solutions detailing the propagation of longitudinal waves in slender rods subjected to a sudden increase of internal energy provide simple tools for the calculation of the temperature distribution in impacted rods as well as the resulting mechanical response. The topic is of great interest in particle accelerator technology, especially with regards to collimation systems, where beam intercepting devices can be generally approximated to one-dimensional (1D) elements potentially subjected, in accident… Show more

“…Similar analyses have been performed on other materials tested in the MultiMat experiment, and information on the thermomechanical modelling aspects in such scenarios is detailed in previous studies [13,15]. Similarly, analytical solutions for the dynamic response of slender beams subjected to thermal shock have also been studied extensively [34][35][36][37][38][39].…”

“…is is used as an input in transient thermal analyses, which compute the temperature in the specimens as a result of the beam impact. e thermal analyses were modelled adiabatically given that the thermal evolution within the specimen is in the order of seconds, compared with the dynamic phenomena observed which are in the order of microseconds [35]. e mesh size used in thermal analyses considered the energy density map bin size-in this case, the mesh consisted of 50 divisions along the longitudinal coordinate and 60 divisions across the cross section, resulting in a model with 379,181 elements.…”

Thermomechanical Characterisation of Copper Diamond and Benchmarking with the MultiMat Experiment

“…Similar analyses have been performed on other materials tested in the MultiMat experiment, and information on the thermomechanical modelling aspects in such scenarios is detailed in previous studies [13,15]. Similarly, analytical solutions for the dynamic response of slender beams subjected to thermal shock have also been studied extensively [34][35][36][37][38][39].…”

“…is is used as an input in transient thermal analyses, which compute the temperature in the specimens as a result of the beam impact. e thermal analyses were modelled adiabatically given that the thermal evolution within the specimen is in the order of seconds, compared with the dynamic phenomena observed which are in the order of microseconds [35]. e mesh size used in thermal analyses considered the energy density map bin size-in this case, the mesh consisted of 50 divisions along the longitudinal coordinate and 60 divisions across the cross section, resulting in a model with 379,181 elements.…”

Thermomechanical Characterisation of Copper Diamond and Benchmarking with the MultiMat Experiment

Numerical and experimental benchmarking of the dynamic response of SiC and TZM specimens in the MultiMat experiment

Wave-particle interactions in copper diamond