This work investigates the possibility of repurpose waste glass materials in the field of 3D printing of slurries via vat polymerization technologies, using biobased photocurable formulations. The formulations are prepared with acrylated epoxidized soybean oil (AESO) developed in our previous work [1]. Waste materials like mineral wool and glass from the vitrification of ash from municipal waste incinerators were ball milled and sieved under 25 µm. The as-obtained powders were morphologically characterized using field emission scanning electron microscopy (FESEM) and thermally using dynamic scanning calorimetry (DSC), hot stage microscopy (HSM) and dilatometry. These powders were mixed with AESO formulations to prepare photocurable slurries with loadings of 40 to 60 wt%. Rheological and photo-rheological analyses determined printing parameters including exposure time and layer thickness. Then, porous like structure were 3D printed using Vat photopolymerization techniques. Post printing thermal treatments were carried out to consolidate the printed objects, removing the resin component and yielding glass-ceramic structures. The results indicate significant potential for manufacturing of porous-like glass-ceramic materials through this method, with promising results for sustainable material reuse and advanced manufacturing processes.