Add to ORKGThe accidental impact of hadron beams on matter can induce intense shockwaves along with complex dynamic phenomena (phase transitions, extended density changes, explosions and fragment projections). These events have been successfully modeled resorting to wave propagation codes; to produce accurate results, however, these programs require reliable material constitutive models that are often scarce and inaccurate. A complex and innovative experiment was carried out at CERN to benchmark existing material constitutive models and possibly derive new ones. The test setup, aimed at the characterization of six different materials impacted by 440 GeV intense proton pulses, allowed to generate cylindrical shockwaves on material specimens and to obse...
The introduction at CERN of new extremely energetic particle accelerators, such as the high-luminosi...
Beam Intercepting Devices are potentially exposed to severe accidental events triggered by direct im...
The introduction at CERN of new extremely energetic particle accelerators, such as the high-luminosi...
The accidental impact of hadron beams on matter can induce intense shockwaves along with complex dyn...
Predicting the consequences of highly energetic particle beams impacting protection devices as colli...
In recent years, significant efforts were taken at CERN and other high-energy physics laboratories t...
The rapid interaction of highly energetic particle beams with matter induces dynamic responses in th...
The unprecedented energy intensities of modern hadron accelerators yield special problems with the m...
A theoretical model and numerical calculations are developed to estimate consequences of the impact ...
An increased understanding of the shockwave interaction with a cylindrical structure is the foundati...
The study of the thermomechanical response of materials to a time dependent heat load is of paramoun...
The introduction at CERN of new extremely energetic particle accelerators, such as the high-luminosi...
The introduction at CERN of new extremely energetic particle accelerators, such as the high-luminosi...
Beam Intercepting Devices (BID) are designed to operate in a harsh radioactive environment and are h...
The introduction at CERN of new extremely energetic particle accelerators, such as the high-luminosi...
The introduction at CERN of new extremely energetic particle accelerators, such as the high-luminosi...
Beam Intercepting Devices are potentially exposed to severe accidental events triggered by direct im...
The introduction at CERN of new extremely energetic particle accelerators, such as the high-luminosi...
The accidental impact of hadron beams on matter can induce intense shockwaves along with complex dyn...
Predicting the consequences of highly energetic particle beams impacting protection devices as colli...
In recent years, significant efforts were taken at CERN and other high-energy physics laboratories t...
The rapid interaction of highly energetic particle beams with matter induces dynamic responses in th...
The unprecedented energy intensities of modern hadron accelerators yield special problems with the m...
A theoretical model and numerical calculations are developed to estimate consequences of the impact ...
An increased understanding of the shockwave interaction with a cylindrical structure is the foundati...
The study of the thermomechanical response of materials to a time dependent heat load is of paramoun...
The introduction at CERN of new extremely energetic particle accelerators, such as the high-luminosi...
The introduction at CERN of new extremely energetic particle accelerators, such as the high-luminosi...
Beam Intercepting Devices (BID) are designed to operate in a harsh radioactive environment and are h...
The introduction at CERN of new extremely energetic particle accelerators, such as the high-luminosi...
The introduction at CERN of new extremely energetic particle accelerators, such as the high-luminosi...
Beam Intercepting Devices are potentially exposed to severe accidental events triggered by direct im...
The introduction at CERN of new extremely energetic particle accelerators, such as the high-luminosi...