CERN Accelerating science

Article
Title Thermomechanical response of Large Hadron Collider collimators to proton and ion beam impacts
Author(s) Cauchi, Marija (CERN ; Malta U.) ; Assmann, R W (CERN) ; Bertarelli, A (CERN) ; Carra, F (CERN) ; Cerutti, F (CERN) ; Lari, L (CERN) ; Redaelli, S (CERN) ; Mollicone, P (Malta U.) ; Sammut, N (Malta U.)
Publication 2015
Number of pages 14
In: Phys. Rev. Spec. Top. Accel. Beams 18 (2015) 041002
DOI 10.1103/PhysRevSTAB.18.041002
Subject category Accelerators and Storage Rings ; 11: Collimator Materials for fast High Density Energy Deposition (COMA-HDED) ; 11.3: Material mechanical modelling
Abstract The CERN Large Hadron Collider (LHC) is designed to accelerate and bring into collision high-energy protons as well as heavy ions. Accidents involving direct beam impacts on collimators can happen in both cases. The LHC collimation system is designed to handle the demanding requirements of high-intensity proton beams. Although proton beams have 100 times higher beam power than the nominal LHC lead ion beams, specific problems might arise in case of ion losses due to different particle-collimator interaction mechanisms when compared to protons. This paper investigates and compares direct ion and proton beam impacts on collimators, in particular tertiary collimators (TCTs), made of the tungsten heavy alloy INERMET® 180. Recent measurements of the mechanical behavior of this alloy under static and dynamic loading conditions at different temperatures have been done and used for realistic estimates of the collimator response to beam impact. Using these new measurements, a numerical finite element method (FEM) approach is presented in this paper. Sequential fast-transient thermostructural analyses are performed in the elastic-plastic domain in order to evaluate and compare the thermomechanical response of TCTs in case of critical beam load cases involving proton and heavy ion beam impacts.
Copyright/License publication: © 2015-2024 The Author(s) (License: CC-BY-3.0)

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