Reinforced scan: a reinforcement learning enabled optimal laser scan path planning in laser powder bed fusion additive manufacturing. [PDF]
Int J Adv Manuf TechnolDou C +5 more
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Comparative Study of Different Additive Manufacturing Methods for H13 Tool Steel. [PDF]
Materials (Basel)Widomski P +4 more
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Quantifying Additive Manufacturing Vapor Plumes Using Laser-Induced Breakdown Spectroscopy, Synchrotron X-Ray Radiography and Simulations. [PDF]
Adv Sci (Weinh)Getley ACM +8 more
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Support-Free Fabrication of In625 Low-Angle Overhang Structures Using Laser Powder Bed Fusion (Lpbf)
Materials & DesignAmit Kumar +4 more
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Comparative Study on Intermediate-Temperature Deformation Mechanisms of Inconel 718 Alloys Fabricated by Additive Manufacturing and Conventional Forging. [PDF]
Materials (Basel)Wu J +5 more
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Manufacturing, Microstructure, and Mechanics of 316L SS Biomaterials by Laser Powder Bed Fusion. [PDF]
J Funct BiomaterZhang Z, Mativenga P, Huang SQ.
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Evaluation of expansion and crossing profile characteristics of micro laser powder bed fusion-manufactured coronary stents in a rat model. [PDF]
Sci RepNilcham P +10 more
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Thermal Based Process Monitoring for Laser Powder Bed Fusion (LPBF)
Advanced Materials Research, 2021Laser powder bed fusion (LPBF) is a frequently used manufacturing process due to its advantages in lightweight construction, design possibilities and functionalization of geometry. However, the printed parts will often have to undergo time and cost expensive non-destructive testing by sophisticated methods like X-CT.
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