Experimental studies on thermal behavior of 6 Tesla cryogen-free superconducting magnet system

Citations Over Time

Abstract

A 6 T cryogen-free superconducting magnet system (CFMS) with warm bore has been designed, built and tested for carrying out physical property measurements at high magnetic field. The CFMS has a vertical Ψ 50 mm clear room temperature working bore. A two-stage GM-cryocooler of 35 W at 50 K and 1.5 W at 4 K cooling capacity has been used to cool the thermal radiation shield, hybrid current leads and the NbTi magnet. The magnet was charged to 102 A, which produced a field of 6 T, in less than 20 minutes. The outer surface temperature of magnet rose from 3.3 K at zero current to 3.9 K at 102 A current. The thermal link between cold head and magnet greatly influences the excitation rate and the stability of the magnet. Based upon our thermal analysis on the magnet system, an experimental study has been carried out on the thermal behavior of the magnet during its operation. A novel technique has been used for connecting the high temperature superconducting current leads to the magnet so as to reduce both electrical and thermal contact resistance at the 2nd stage of the cryocooler. This paper briefly describes the design, development and results of experimental studies of thermal behavior of the system.

Related Papers

• → Design of a Cooling System for a REBCO Insert Coil in a Cryogen-Free 25 T Superconducting Magnet(2014)14 cited
• → Design of superconducting MHD saddle magnets(1992)13 cited
• → A Test System for Superconducting Joints Based on GM Cryocooler(2013)4 cited
• → Stability Study on Cryocooler-Cooled Superconducting Magnets(2005)10 cited
• → Precooling of a superconducting magnet using a cryocooler and thermal switches(1979)3 cited