Additive manufacturing research is a transformative field within manufacturing engineering that focuses on creating objects layer by layer from digital models. This technology advances production techniques by enabling complex geometries and customized products with applications spanning aerospace, healthcare, automotive, and more. JoVE Visualize enriches your exploration of additive manufacturing journal articles by pairing them with JoVE’s experiment videos, offering deeper insights into research methodologies and practical implementations relevant to both students and researchers.
Traditional additive manufacturing processes include powder bed fusion, fused deposition modeling, and stereolithography, each offering distinct advantages depending on material and precision needs. These methods are widely documented in additive manufacturing journals and are fundamental for producing metal and polymer components with complex geometries. Researchers often focus on process optimization, machine calibration, and material properties to improve quality and efficiency across applications.
Recent trends highlight innovations like multi-material printing, in-situ monitoring, and hybrid manufacturing systems that combine additive and subtractive techniques. Advances in machine learning and AI are also being integrated to predict defects and optimize additive manufacturing processes. These cutting-edge developments expand the scope of the additive manufacturing impact factor by improving reliability, reducing costs, and enabling novel design possibilities, as reported in various high-impact additive manufacturing journals.
A I Gordienlko, Iu S Krivoshein, A I Gordienko
M Goldberg, S Goldberg, D Luce
Andi Alijagic, Magnus Engwall, Eva Särndahl, Helen Karlsson, Alexander Hedbrant, Lena Andersson, Patrik Karlsson, Magnus Dalemo, Nikolai Scherbak, Kim Färnlund, Maria Larsson, Alexander Persson
Muhammad Z Abbas
Joo-Eun Kim, Young-Joon Park
F M Yanze, C Duru, M Jacob