| 1 |
Properties of 316L formed by a 400 W power laser Selective Laser Melting with 250 mu m layer thickness
Shi WT, Wang P, Liu YD, Hou YJ, Han GL
Powder Technology, 360, 151, 2020 |
| 2 |
Formation mechanism of a wrinkled and textured Al2O3-ZrO2 nanoeutectic rapidly solidified from oxy-acetylene flame remelting
Wang ZG, Ouyang JH, Ma YH, Wang YJ, Liu ZG, Xie LY, Sun DS, Wang YM
Journal of the American Ceramic Society, 102(1), 63, 2019 |
| 3 |
Microstructural modification by laser surface remelting and its effect on the corrosion resistance of an Al-9 wt% Si casting alloy
Osorio WR, Cheung N, Spinelli JE, Cruz KS, Gacia A
Applied Surface Science, 254(9), 2763, 2008 |
| 4 |
Microstructure evolution of a Zn-4wt.% Cu hyperperitectic alloy under laser surface remelting
Huang WD, Su YP, Wang M, Lin X
Materials Science Forum, 475-479, 2611, 2005 |
| 5 |
Residual stress profiles of the laser surface remelted nodular irons
Grum J, Sturm R
Materials Science Forum, 490-491, 460, 2005 |
| 6 |
Comparison of measured and calculated thickness of martensite and ledeburite shells around graphite nodules in the hardened layer of nodular iron after laser surface remelting
Grum J, Sturm R
Applied Surface Science, 187(1-2), 116, 2002 |
| 7 |
Strain measurement during laser surface cladding of low-carbon steel and analysis of residual stresses
Grum J, Znidarsic M
Materials Science Forum, 404-7, 437, 2002 |
