Schematic of laser energy absorption in the conduction mode and

Laser-metal interaction dynamics during additive manufacturing resolved by detection of thermally-induced electron emission

Spectroscopy Basics — Klar Scientific

Schematic of grain growth in the conduction mode and the keyhole mode.

Hongze WANG, Professor (Tenured-Associate), Doctor of Engineering, Shanghai Jiao Tong University, Shanghai, SJTU, Department of Materials Science and Engineering (MSE)

PDF) Microscale interaction between laser and metal powder in powder-bed additive manufacturing: Conduction mode versus keyhole mode

Comparison of the simulated and experimental molten bead [25]: (a) the

Physical phenomena under nanosecond laser irradiation. 16

Photonics, Free Full-Text

Microscale interaction between laser and metal powder in powder-bed additive manufacturing: Conduction mode versus keyhole mode - ScienceDirect

Schematic of conduction-mode laser spot melting.

Hongze WANG, Professor (Tenured-Associate), Doctor of Engineering, Shanghai Jiao Tong University, Shanghai, SJTU, Department of Materials Science and Engineering (MSE)

Physical mechanisms during Laser powder bed fusion (LPBF). Physical

The causal relationship between melt pool geometry and energy absorption measured in real time during laser-based manufacturing - ScienceDirect

International Journal of Heat and Mass Transfer: Hongze Wang, Yu Zou, PDF, Thermal Conduction