prof. dr. Flavio H. Marchesini
- ORCID iD
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0000-0002-7494-2506
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- Conference Paper
- open access
Rheology-Driven Optimization of 3D Printing Parameters for Complex and Flexible Structures
(2025) -
Numerical investigation of polymeric hollow extrudate for optimized 3D printing of complex structures
(2025) -
3D-FLOR: An innovative framework for tuning lattice structures via rheological optimization
(2025) -
- Journal Article
- A1
- open access
Optimising 3D-printed flexible lattice structures for morphing applications by linking rheology to mechanical behaviour
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Enhancing interfacial toughness of 3D printed bi-material polymers via mechanical interlocking and engineered fiber bridging
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Rheological properties and printability of emulsions : towards high-quality 3D printed meat analogues
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Investigating the stability of plant-based emulsions : towards high-quality 3D-printed meat analogues
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Rheological properties and printability of plant-based emulsions : towards high-quality 3D printed meat analogs
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A rheology-based strategy for designing 3D printing processes
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Investigating local nonlinearities in 3D printed thermoplastic lattice structures : the role of thermomechanical characterization of polymers