Metallurgy principles applied to powder bed fusion 3D printing/additive manufacturing of personalized and optimized metal and alloy biomedical implants: an overview - ScienceDirect
TRUMPF Additive Manufacturing: The process and advantages of Laser Metal Fusion (LMF) - YouTube
Powder bed fusion - DMLS, SLS, SLM, MJF, EBM | Make
Metals | Free Full-Text | Review of Powder Bed Fusion Additive Manufacturing for Metals
What is Powder Bed Fusion? Process Definition and Advantages - TWI
LMF prozess | Technology | admantec
The Complete Guide to Laser Powder Bed Fusion in 3D Printing - 3Dnatives
7 Issues to Look Out for in Metal 3D Printing | Engineering.com
Metal vaporization and its influence during laser powder bed fusion process - ScienceDirect
Additive Manufacturing: Making Sense of Laser Metal Deposition and 3D Printing| Fabricating and Metalworking
Laser Beam Powder Bed Fusion - AMPOWER Report
Dynamics of pore formation during laser powder bed fusion additive manufacturing | Nature Communications
Metals | Free Full-Text | Diffraction-Based Residual Stress Characterization in Laser Additive Manufacturing of Metals
Selective laser melting - Wikipedia
Laser Metal Fusion performs at an industrial level” | TRUMPF
Laser Metal Deposition & Laser Metal Fusion: Comparison of Processes & Their Uses – Laser Chirp
Laser Metal Deposition & Laser Metal Fusion: Comparison of Processes & Their Uses – Laser Chirp
Trumpf set to combine tech for new metal 3D printing systems - TCT Magazine
Overview: State of the art laser-based multiple metallic material additive manufacturing
Effects on the distortion of Inconel 718 components along a hybrid laser-based additive manufacturing process chain using laser powder bed fusion and laser metal deposition | SpringerLink
Laser Metal Deposition & Laser Metal Fusion: Comparison of Processes & Their Uses – Laser Chirp
Manufacturing of Metal Components | Technology | admantec
The most widely used metal additive manufacturing processes for... | Download Scientific Diagram
Laser metal fusion | TRUMPF
Porosity and surface defects characterization of hot isostatically pressed Inconel 718 alloy turbine blades printed by 3D laser metal fusion technology | SpringerLink