Your search keyword '"Kihong Sim"' showing total 4 results

1. A Method for Measuring Interface Roughness from Cross-Sectional Micrographs

Author

Shreyas Balachandran, David B. Smathers, Jiman Kim, Kihong Sim, and Peter J. Lee

Subjects

Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Published

2023

2. Effects of Cr diffusion on RRR values of Cr-plated [Nb.sub.3]Sn strands fabricated by internal-tin process

Author

Jiman Kim, Kihong Sim, Kyeongho Jang, Sanghyun Je, Park, Pyeongyeol, Oh, Sangjun, and Keeman Kim

Subjects

Diffusion processes -- Analysis, Niobium -- Magnetic properties, Niobium -- Thermal properties, Nuclear reactors -- Design and construction, Tin alloys -- Magnetic properties, Tin alloys -- Thermal properties, Business, Electronics, Electronics and electrical industries

Abstract

The effect of Cr diffusion on the residual resistance ratio (RRR) values of [Nb.sub.3]Sn strands is studied by using the KSTAR and ITER candidate strands. The studies have shown that the RRR variation is mainly affected by the 20 K resistivity or by chrome diffusion and the other characteristics are not degraded but have rather improved.

Published

2008

3. Superconducting Properties of Reacted Mono- and ultifilament MgB2 Wires With Respect to Bending iameters Using a Custom-Made Bending Test Probe.

Author

Byeongha Yoo, Jung-Bin Song, Jong Cheol Kim, Young-Gyun Kim, Jiman Kim, Kihong Sim, Iksang Shin, Duck Young Hwang, and Haigun Lee

Subjects

SUPERCONDUCTORS, BENDING strength, MAGNETS, NUCLEAR magnetic resonance, MAGNETIC resonance imaging

Abstract

In this paper, the superconducting properties of reacted mono- and multifilamentMgB2 wires were investigated with regards to the bending diameter via a three-point bending test using a lab-made bending test probe. The wires were manufactured by Kiswire Advanced Technology Co., Ltd. According to the results of the bending test, the tolerable bending diameters for mono- and multifilament MgB2 wires were 30 and 160 mm, respectively. In addition, the multifilament wire at a bending diameter of 150 mm showed the existence of a resistive zone caused by the "disconnection" of the MgB2 filaments due to microcracks developed across the entire wire along the transverse direction of the filament. Monofilament wires have the potential to be utilized in most superconducting applications in terms of bending diameter, whereas the bending properties of multifilament wires require improvement to facilitate the design and fabrication of multifilament MgB2 magnets. [ABSTRACT FROM AUTHOR]

Published

2018

4. Effects of Cr Diffusion on RRR Values of Cr-Plated Nb3 Sn Strands Fabricated by Internal-Tin Process.

Author

Jiman Kim, Kihong Sim, Kyeongho Jang, Sanghyun Je, Pyeongyeol Park, Sangjun Oh, and Keeman Kim

Subjects

*SUPERCONDUCTIVITY, *HEAT treatment of steel, *SUPERCONDUCTING magnets, *SUPERCONDUCTING composites, *SUPERCONDUCTORS, *MAGNETIC fields, *CRYOELECTRONICS, *ELECTRIC currents, *MICROCHEMISTRY

Abstract

Nb3Sn strands which will be used for the ITER TF coils should be chrome plated thickness of 1.8 μm to reduce AC loss and improve the thermal stability of cable. During heat treatment, the RRR value can be affected by Cr diffusion. In this work, the effect of Cr diffusion was systematically studied, using the KSTAR and ITER candidate strands. For the KSTAR strand, the Cu/non-Cu ratio was systematically varied from 1.53 to 0.69 by chemical etching whereas the samples were heat treated by the same schedule. For the ITER candidate strand, on the other hand, the Cu/non-Cu ratio was fixed to the specification value of 1.0, and the variation of the RRR value was studied with respect to the heat treatment schedule, especially the retention time of the 650°C plateau was varied from 100 to 200 hours. It was also compared with the Cr diffusion distance obtained from EPMA (Electron Probe Microanalysis). We found that the RRR value of the ITER candidate strand becomes lower than the ITER requirement of 100, if the heat treatment at 650°C is longer than 200 hours. The RRR can be reached up to 161 when the duration of 650°C plateau is reduced to 100 hours, while satisfying all other ITER requirements including the critical current density. [ABSTRACT FROM AUTHOR]

Published

2008