Failure Assessments for MQXF Magnet Support Structure With a Graded Approach
2019
© 2002-2011 IEEE. The
high luminosity large hadron collider(LHC) upgrade requires new quadrupoles, MQXF, to replace the present LHC inner triplet magnets. The MQXFA magnet is the first prototype that has a 150-mm aperture and uses Nb3Sn superconducting technology in a 4.2-m magnetic length structure. The support structure design of the MQXFA magnet is based on the bladder-and-key technology, where a relatively low pre-stress at room temperature is increased to the final preload targets during the
cool-downby the differential thermal contraction of the various components. The magnet support structure components experience different load levels from pre-load to
cool-downand excitation. Consequently, a few parts experience high stresses that may cause localized plastic deformations or internal fracture development. The concept presented in this paper for the
failure assessmentof support structures
integrates nonlinearfinite-element (FE) analysis with detailed sub-models and fracture mechanics into an advanced engineering tool. The nonlinear FE solutions enable estimations of the structural response to the given loads, and the advanced fracture analysis with
failure assessmentdiagram assesses the structure safety index of results obtained from the FE model. The paper describes how the MQXFA end-shell segments are being optimized based on the failure analyses.
Keywords:
-
Correction
-
Source
-
Cite
-
Save
3
References
3
Citations
NaN
KQI