Compatible with-
Flashforge PLA (Polylactic Acid) in now a new formula made from high quality virgin materials ensuring consistent quality and colour.
Flashforge PLA is the most popular go-to material for most users due to its ease-of-use, dimensional accuracy, and low cost.
Flashforge PLA can print without the need of a heated bed, it has low warping characteristics showing precise detail with good bonding characteristics yet allowing clean separation from support structures. These characteristics make this material ideal for small precise detail as well as large prints.
Flashforge PLA is made from environmentally friendly non-toxic biodegradable materials. Derived from crops such as corn and sugarcane.
An ideal general material for home users and schools.
Flashforge PLA has low warping characteristics making it ideal for large architectural models.
Additionally making it ideally suited for 3d printers that do not have a heated bed.
Flashforge PLA is made from quality pure materials with consistent viscosity and flow characteristics over a larger temperature range making it an idea filament for printing high detailed models at ultra fine layer resolutions down to less than 50 microns.
Flashforge PLA presents high dimensional accuracy making it ideal for use prototypes and interlocking parts.
This is a testament to the use or quality pure raw materials, stringent quality control and high accuracy production with a +-0.02mm dimensional tolerance.
The new range of Flashforge PLA made with high quality raw materials in a bold solid range of vivid colours. Consistency is assured through stringent quality to ISO9001 quality control managament systems.
Flashforges' state-of-art filament manufacturing facility utilises the latest in filament extrusion technology.
Raw materials are pre dried for a minimum of 5 hours to remove moisture. This avoids any bubbles, popping during printing.
Best in class laser guided tracking and spooling technology ensures filament dimensional accuracy and roundness.
Filaments are the annealed as they are processed. This reduces brittleness of the material and increases the initial softening temperature of the material when 3d printing. This significantly improves material flow, improving surface finish and reduces the change of material blockages.