@article{article_634329, title={Design, Fabrication, and Characterization of a Water-Cooled Electromagnet and Magnetic Field Mapping}, journal={International Journal of Engineering Research and Development}, volume={12}, pages={349–357}, year={2020}, DOI={10.29137/umagd.634329}, author={Sogukpinar, Haci and Tali, Bayram and Tepe, Mahmut}, keywords={solenoid magnet, finite element method, water-cooled magnet, , robotic arm}, abstract={<p style="margin-bottom:.0001pt;"> <span style="line-height:107%;">In
this paper, a prototype solenoid magnet was designed and fabricated to be used
in Micro Wave Discharge Ion Sources in the Turkish Accelerator Center Proton
Accelerator Project and magnetic field mapping was performed with an experiment
and also investigation was conducted by using finite element method. For this,
a water-cooled electromagnet was designed and fabricated from 1010 steel with a
thickness of 10 cm. Magnetic field sensor was connected to a new designed
robotic arm and 2570 magnetic field intensity measurements were performed in
the core of magnet with the size of 20 cm diameter and 10 cm depth of cylinder.
The robotic arm was driven by three stepper motors and the measurement was
automated with the Arduino physical programming platform. The UGN3503U Hall
Effect sensor was used to measure the magnetic field and for the data
processing ROOT was used. The magnetic field distribution inside the core of the
solenoid magnet was investigated by using the finite element method. The commercial
version of The Flexible Generalized Minimal Residual method (FGMRES) solver (built-in
COMSOL) was used for the numerical part and magnetic field was calculated and
compared with experiment to correlate simulation accuracy of this study. </span> </p>}, number={2}, publisher={Kirikkale University}, organization={Adıyaman Üniversitesi}