Researchers at the Massachusetts Institute of Technology (MIT) have developed a toolkit that could make eco-friendly 3D printing more practical for industry and consumers. The system, called SustainaPrint, is designed to reinforce weak areas in printed objects while using mostly biodegradable or recycled filaments.
Most 3D-printed products today rely on petroleum-based plastics, which provide the strength needed for functional parts. Greener alternatives exist, but their brittleness has limited adoption. SustainaPrint addresses this trade-off by analyzing digital models, predicting stress points, and reinforcing only those areas with stronger plastics.
The approach cuts material use significantly. In tests, researchers found that objects created with just 20% of high-performance plastics retained up to 70% of the strength of fully plastic versions. In some cases, the reinforced components proved even stronger than those made entirely from petroleum-based material.
“Our hope is that SustainaPrint can be used in industrial and distributed manufacturing settings one day, where local material stocks may vary in quality and composition,” said Maxine Perroni-Scharf, an MIT PhD student and lead author of the project.
To encourage adoption, the team has developed a do-it-yourself testing kit that lets users check structural strength before printing. MIT also plans to make SustainaPrint open-source, broadening access to a tool that could help reduce plastic consumption while keeping 3D-printed products reliable.
Source: MIT News
