2D and 3D FEM and analytical electromagnetic calculations.
2D and 3D FEM and analytical stress calculations.
2D and 3D FEM and analytical thermal calculations.
Coil cooling calculations.
Support frame calculations.
Design of normal conduction magnet to enable 2D/3D magnetic field modeling of small corrector coils as well as large magnets.
Design of superconductor magnets with stability and durability.
Design of products for research and commercial purposes.
Our production facilities have all the equipment, winding machine, vacuum system oven, and measurement device required for full production.
Special tools for producing and utilizing components for accelerators and fusion experiments.
KR TECH provides the whole magnet system including the ones supporting the specifications of power supply unit and vacuum chamber.
krtech. DESIGN & MANUFACTURE MAGNETS FOR PARTICLE ACCELERATORS
krtech. DESIGN & MANUFACTURE MAGNETS FOR PARTICLE ACCELERATORS
krtech. DESIGN & MANUFACTURE MAGNETS FOR PARTICLE ACCELERATORS
krtech. DESIGN & MANUFACTURE MAGNETS FOR PARTICLE ACCELERATORS
Pohang Accelerator Laboratory: 4-pole magnet (33 sets), 2-pole electromagnet for XFEL.
National Nuclear Energy Agency (BATAN, Indonesia): Designed and produced 13MeV cyclotron electromagnet.
High Energy Accelerator Research Organization (KEK, Japan): Designed and produced 2-pole electromagnet.
Pohang Accelerator Laboratory: Produced 6-pole electromagnet (52 sets) for PLS 2.
Pohang Accelerator Laboratory: Designed and produced klystron electromagnet (8 sets).
Delivered 125 sets of 2/4/6-pole electromagnet to Heavy Ion Treatment Center of Yonsei University Hospital (Severance Hospital)
Delivered components for heavy ion accelerator for cancer treatment (Yamagata University, Japan): 4-pole magnet (45 sets), 6-pole magnet (10 sets), septum (2 sets), steering magnet (64 sets), bump magnet (6 sets),2-pole magnet (2 sets).
Designed and produced components for Kobe Pediatric Cancer Treatment Hospital (Japan): 4-pole magnet (40 sets), steering electromagnet (15 sets)
Taipei Chang Gung Memorial Hospital (Taiwan): Designed and produced 2/4-pole magnet.
Kanagawa Prefectural Cancer Center (Japan): 4-pole magnet (7 sets), 6-pole magnet (10 sets), septum (2 sets), steering magnet (15 sets), 2-pole magnet (2 sets).
Designed and produced 4/6-pole electromagnet for RISP project of Institute for Basic Science in Daejeon
Synchrotron facilities for Nagoya University (Japan): Designed and produced 4-pole magnet (32 sets), 6-pole magnet (32 sets), and steering electromagnet (7 sets).