GEMA Projects
Robocast photocatalysts for wastewater treatment
Development of 3D printing techniques capable of 3D printing gels with applications in anatomical simulators for medical training
Mechanical Degradation of dental materials
Fabrication and characterization of patient-specific scaffolds for animal implantation
Characterization of graphene oxide and reduced graphene oxide
Development of hybrid materials based on multi-segmented ceramic plates manufactured by robocasting for personal protection and injury prevention
Consultancy for Guangzhou Medical University (GMU) on the fabrication of scaffolds for bone regeneration
Development by robocasting and mechanical optimization of hybrid ceramic/polymer coaxial scaffolds for biomedical applications
Development of recycled and eco-friendly filaments and ceramic-loaded thermoplastics as consumables for low-cost 3D printers
Mechanical optimization and in vitro characterization of bioactive glass-ceramic scaffolds manufactured by robocasting for bone regeneration
Natural inorganic polymers and smart functionalized micro-units applied in customized rapid prototyping of bioactive scaffolds
Development and structural and mechanical optimization of robocast bioactive hybrid materials for bone regeneration applications
Fabrication of green slate from waste sintering
Development of beta-TCP bioceramic scaffolds with porosity gradients by robocasting
Obtaining Ceramic Construction Materials from Slate Waste
Optimization of the mechanical performance of ceramic/polymer scaffolds fabricated by robocasting for bone tissue engineering applications
Development of Extended-Lifetime Organic-Inorganic Scaffolds for Orthopaedical Applications
Mechanical properties of ceramic layers under contact stresses at Ta <T<1500ºC
Mechanical response of prototype multilayer materials under contact stresses