The most sparkly pink you've ever seen!
Remember your first crush? Remember how he or she could do no wrong and everything about them sparkled? Look out because you're about to be struck by our most sparkly filament yet! Perfect for gifts and sharing, spread the love with Cupid's Crush Metallic Pink HTPLA this Valentine's and all year long!
Created from our highest quality HTPLA, this is Proto-pasta's pink! The one pink to rule all pinks!!! Sorry to ruin you to printing with anything else ;-)
Print with the ease of standard PLA with standard hardware and temperatures, but make fun, mesmerizing prints that stand out. Celebrate good times with ornaments, disco balls, toys, and treasures. If you want to make a print more fun, just add glitter. Glitter Flake has little risk of clogging or wearing your nozzle, and it won't make a glitter mess, but beware, printing with glitter is sure to be addictive! Glitter particles will lay flat with smaller layers, giving top/bottom surfaces more shine than sidewall, so have some fun playing with resolution to see how the result changes!
Like our other HTPLAs, Metallic HTPLA can be "Heat Treated" to increase crystallinity for "Higher Temperature" resistance compared to amorphous PLA, ABS, and co-polyesters like PETG! Glittler Flake HTPLA prints translucence, but turns opaque when heat treated (or crystallized). With a more crystalline structure, heat treated HTPLA parts can hold form to near melting, though temperatures where the material is practically useful vary greatly depending on geometry and load conditions!
For this improved the performance, your prints should be baked in an oven until you see a change from translucent to opaque with reduced gloss. This visual change indicating the improved performance! We've seen the change take place in 5-10 minutes on thin walled parts but can take an hour or more. We've had good luck in a quality, at home convection oven at 110C (225F). Parts will get very "floppy" before becoming more firm, so please leave supports on your parts or support them and bake them on a flat, non-radiating surface (like glass, ceramic, or composite).