International Journal of Advanced Manufacturing Technology104(5-8), 1661–1676 (2019)

El Moumen, A · 2019

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Hybrid Machine Learning and Physical Modeling of Feedstock Deformation During Robotic 3D Printing of Continuous Fiber Thermoplastic Composites

cs.CE · 2026-05-04 · unverdicted · novelty 6.0

A hybrid Kelvin-Voigt viscoelastic and stabilized neural ODE model, identified from DMA and DSC experiments, predicts composite prepreg deformation in robotic 3D printing and generalizes beyond training temperatures.

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Hybrid Machine Learning and Physical Modeling of Feedstock Deformation During Robotic 3D Printing of Continuous Fiber Thermoplastic Composites cs.CE · 2026-05-04 · unverdicted · none · ref 7
A hybrid Kelvin-Voigt viscoelastic and stabilized neural ODE model, identified from DMA and DSC experiments, predicts composite prepreg deformation in robotic 3D printing and generalizes beyond training temperatures.

International Journal of Advanced Manufacturing Technology104(5-8), 1661–1676 (2019)

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