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This document presents a transient thermal analysis of approximately 2500 brick elements, focusing on the properties of G-10 and copper at cryogenic temperatures. The analysis operates under the assumption that all elements maintain a base temperature of -226°F (130K), except for the G-10 face which is maintained at -321°F (77K). The properties, sourced from the Handbook on Superconducting Machinery (1984), are temperature-independent, with specific heat and thermal conductivity compared to room temperature metrics. Detailed plots illustrate the thermal behavior throughout the thickness and along the length of the G-10 and copper materials.
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Assumptions: • All elements have base temperature of -226F (130K) with exception of face of cooled G-10 which is forced to remain at -321F (77K) • Properties are not temperature dependent – although properties used are for G-10 @ -321F & Copper (CDA) properties are at -280F • Cryogenic properties obtained from Handbook on Super-conducting machinery (9/1984)
Model: • ~2500 brick elements • Transient Thermal analysis • 300 steps @ 3 sec per step
0.350” 0.391” G-10 (0.016” THK) Cu 1 Cu 2 6” -321F See plot 1 & 2 See Plot 3
G-10 (-321F) CDA Copper (-280F) Specific heat 27% of RT 64% of RT Thermal conductivity 52% of RT 116% of RT Notes: Material factors RT to Cryogenic
