PLA’s common limitations while retaining its ease of use and eco-friendly nature.
PLA is widely used in fused deposition modeling (FDM) 3D printing due to its low printing temperature, minimal UJIYBIO Hyper PLA+ warping, and biodegradable base material derived from renewable resources such as corn starch. However, regular PLA can be brittle, sensitive to heat, and limited in mechanical strength. UJIYBIO Hyper PLA+ addresses these weaknesses by improving toughness, layer adhesion, and durability, making it suitable for both beginners and advanced users.
One of the most notable features of UJIYBIO Hyper PLA+ is its ability to support high-speed printing without sacrificing accuracy. While traditional PLA is typically printed at moderate speeds, Hyper PLA+ is engineered to flow more smoothly through the nozzle, allowing printers to operate at significantly faster speeds. This makes it especially compatible with modern high-speed 3D printers, reducing production time while maintaining fine detail and dimensional accuracy.
In terms of mechanical performance, UJIYBIO Hyper PLA+ offers increased impact resistance and tensile strength compared to standard PLA. This enhanced toughness makes printed parts less prone to cracking or snapping under stress. As a result, it is well suited for functional prototypes, mechanical components, household tools, and decorative models that require both strength and visual appeal.
Another advantage of UJIYBIO Hyper PLA+ is its excellent print stability. It demonstrates strong bed adhesion and low warping, even on larger prints, which helps reduce print failures. Additionally, it produces smoother surfaces and more consistent layers, leading to higher-quality finished models with minimal post-processing required.
From an environmental perspective, UJIYBIO Hyper PLA+ retains the biodegradable characteristics of PLA, making it a more eco-friendly option compared to petroleum-based filaments like ABS or Nylon. While additives are used to enhance performance, it remains a safer and lower-odor material to print with,