Publications by authors named "Hyun-Uk Hong"
The degradation of mechanical properties caused by grain coarsening or the formation of brittle phases during welding reduces the longevity of products. Here, we report advances in the weld quality of ultra-high strength steels by utilizing Nb and Cr instead of Ni. Sole addition of Cr, as an alternative to Ni, has limitations in developing fine weld microstructure, while it is revealed that the coupling effects of Nb and Cr additions make a finer interlocking weld microstructures with a higher fraction of retained austenite due to the decrease in austenite to acicular ferrite and bainite transformation temperature and carbon activity.
View Article and Find Full Text PDFMetal Additive Manufacturing and Laser Powder Bed Fusion (LPBF), in particular, have come forth in recent years as an outstanding innovative manufacturing approach. The LPBF process is notably characterized by very high solidification and cooling rates, as well as repeated abrupt heating and cooling cycles, which generate the build-up of anisotropic microstructure and residual stresses. Post-processing stress-relieving heat treatments at elevated temperatures are often required in order to release some of these stresses.
View Article and Find Full Text PDFArticle Synopsis
- Steel is a crucial material for industrialized societies, but corrosion leads to significant economic losses, costing around 2.5 trillion USD annually, or 3.4% of global GDP.
- A new family of low-density stainless steels has been developed, featuring ultra-high strength and high ductility, which could address the corrosion issue and improve sustainability.
- These alloys, strengthened by nano-sized κ-carbide and enhanced with chromium, offer better resistance to pitting corrosion, making them a suitable replacement for traditional stainless steels with added benefits of lower density and reduced environmental impact.