@article{ART002398251},
author={Kang Pyo Lee and Kangmin Kim and Suk Hyun Kang and Han, Jun Hyun and Kyung Hwan Jung},
title={Optimization for high speed manufacturing of Ti-6Al-4V alloy by a selective laser melting technique},
journal={Journal of the Korean Crystal Growth and Crystal Technology},
issn={1225-1429},
year={2018},
volume={28},
number={5},
pages={217-221},
doi={10.6111/JKCGCT.2018.28.5.217}
TY - JOUR
AU - Kang Pyo Lee
AU - Kangmin Kim
AU - Suk Hyun Kang
AU - Han, Jun Hyun
AU - Kyung Hwan Jung
TI - Optimization for high speed manufacturing of Ti-6Al-4V alloy by a selective laser melting technique
JO - Journal of the Korean Crystal Growth and Crystal Technology
PY - 2018
VL - 28
IS - 5
PB - The Korea Association Of Crystal Growth, Inc.
SP - 217
EP - 221
SN - 1225-1429
AB - Selective laser melting (SLM) technique is one of the additive manufacturing processes, in which functional, complex parts can be directly manufactured by selective melting layers of powder. SLM technique has received great attention due to offering a facile part-manufacturing route and utilizing a hard-to-manufacturing material (e.g. Ti6Al4V).
The SLM process allows the accurate fabrication of near-net shaped parts and the significant reduction in the consumption of raw materials when compared to the traditional manufacturing processes such as casting and/or forging. In this study, we focus the high-speed additive manufacturing of Ti6Al4V parts in the aspect of manufacturing time, controlling various process parameters.
KW - Additive manufacturing (AM);Selective laser melting (SLM);Ti-6Al-4V;Process condition
DO - 10.6111/JKCGCT.2018.28.5.217
ER -
Kang Pyo Lee, Kangmin Kim, Suk Hyun Kang, Han, Jun Hyun and Kyung Hwan Jung. (2018). Optimization for high speed manufacturing of Ti-6Al-4V alloy by a selective laser melting technique. Journal of the Korean Crystal Growth and Crystal Technology, 28(5), 217-221.
Kang Pyo Lee, Kangmin Kim, Suk Hyun Kang, Han, Jun Hyun and Kyung Hwan Jung. 2018, "Optimization for high speed manufacturing of Ti-6Al-4V alloy by a selective laser melting technique", Journal of the Korean Crystal Growth and Crystal Technology, vol.28, no.5 pp.217-221. Available from: doi:10.6111/JKCGCT.2018.28.5.217
Kang Pyo Lee, Kangmin Kim, Suk Hyun Kang, Han, Jun Hyun, Kyung Hwan Jung "Optimization for high speed manufacturing of Ti-6Al-4V alloy by a selective laser melting technique" Journal of the Korean Crystal Growth and Crystal Technology 28.5 pp.217-221 (2018) : 217.
Kang Pyo Lee, Kangmin Kim, Suk Hyun Kang, Han, Jun Hyun, Kyung Hwan Jung. Optimization for high speed manufacturing of Ti-6Al-4V alloy by a selective laser melting technique. 2018; 28(5), 217-221. Available from: doi:10.6111/JKCGCT.2018.28.5.217
Kang Pyo Lee, Kangmin Kim, Suk Hyun Kang, Han, Jun Hyun and Kyung Hwan Jung. "Optimization for high speed manufacturing of Ti-6Al-4V alloy by a selective laser melting technique" Journal of the Korean Crystal Growth and Crystal Technology 28, no.5 (2018) : 217-221.doi: 10.6111/JKCGCT.2018.28.5.217
Kang Pyo Lee; Kangmin Kim; Suk Hyun Kang; Han, Jun Hyun; Kyung Hwan Jung. Optimization for high speed manufacturing of Ti-6Al-4V alloy by a selective laser melting technique. Journal of the Korean Crystal Growth and Crystal Technology, 28(5), 217-221. doi: 10.6111/JKCGCT.2018.28.5.217
Kang Pyo Lee; Kangmin Kim; Suk Hyun Kang; Han, Jun Hyun; Kyung Hwan Jung. Optimization for high speed manufacturing of Ti-6Al-4V alloy by a selective laser melting technique. Journal of the Korean Crystal Growth and Crystal Technology. 2018; 28(5) 217-221. doi: 10.6111/JKCGCT.2018.28.5.217
Kang Pyo Lee, Kangmin Kim, Suk Hyun Kang, Han, Jun Hyun, Kyung Hwan Jung. Optimization for high speed manufacturing of Ti-6Al-4V alloy by a selective laser melting technique. 2018; 28(5), 217-221. Available from: doi:10.6111/JKCGCT.2018.28.5.217
Kang Pyo Lee, Kangmin Kim, Suk Hyun Kang, Han, Jun Hyun and Kyung Hwan Jung. "Optimization for high speed manufacturing of Ti-6Al-4V alloy by a selective laser melting technique" Journal of the Korean Crystal Growth and Crystal Technology 28, no.5 (2018) : 217-221.doi: 10.6111/JKCGCT.2018.28.5.217
