Injection Molding
Tool Inserts
Design Flexibility
3D printing allows for cost intensive features to be integrated into designs with ease
Heat Resistant
High temperature stability ensures low wear and fast cycle times
Material Variety
A wide range of polymers are able to be processed on our FABRAcate inserts
Reduced Time to Market
Rapid tooling enables companies to test product feasibiliy and iterate quickly based on market feedback
Lean Manufacturing
Utilizing a Master Unit Die (MUD) with 3D printed inserts is the perfect solution to keep setups fast and costs low
Thermoforming
Buck
Freedom of Design
Vacuum channels can be freely place due to 3D printing production method
Heat Resistent
High temperature stability ensures low wear and fast cycle times
Part Optimization
Rapid tool iteration to modify designs and increase part performance
Lightweight
3D printed tools offer easier handling for day-to-day operation when compared to heavy conventional tools
Reduced Leadtime
Compared to conventional manufacturing methods 3D printing drastically reduces the time to market
Cost Effective
Rapid tooling offers an attractive price to performance level for prototyping and small production batches
Casting
Forms
Freedom of Design
3D printing allows for cost intensive features to be integrated into design with ease
Heat Resistent
High temperature stability provides the necessary rigidity for curing at elevated temperatures
Material Variety
A wide range of polymers are able to be processed on our FABRAcate inserts
Lighweight
3D printed tools offer easier handling for day-to-day operation when compared to heavy conventional tools
Reduced Time to Market
Rapid tooling enables companies to test product feasibiliy and iterate quickly based on market feedback
Cost Effective
Rapid tooling offers an attractive price to performance level for prototyping and small production batches