Automated Presets for a Streamlined 3D Printing Process
Blueprint automatically matches the optimum process and parameters for production before 3D printing even starts based on your specific needs and desired results.
L3 Printing Strategy
Built to Deliver the Results You Need
Built to Deliver the Results You Need
L3 Strategy
Full printing strategies based on material properties, set printer parameters, layer thickness, final result requirements, and model features.
Material Properties
Printer Parameters
Layer Thickness
Final Result Requirements
Model Features
L2 Strategy
Printing based on material properties, set printer parameters, and layer thickness.
Material Properties
Printer Parameters
Layer Thickness
L1 Strategy
Printing only based on material properties.
Material Properties
L1 Strategy
Printing only based on material properties.
L2 Strategy
Printing based on material properties, set printer parameters, and layer thickness.
L3 Strategy
Full printing strategies based on material properties, set printer parameters, layer thickness, final result requirements, and model features.
Material Properties
Printer Parameters
Layer Thickness
Final Result Requirements
Model Features
10,000+ simulations provide optimal parameters for each print
Ensure your hardware and software are up to date with the latest Blueprint printing strategies
Parameter Optimization
OTA Updates
Automated Pre-Processing
One-Click Fast Operation
One-Click Fast Operation
Prepare
Layout
Supports Adding
Slice
Pre-processing
10 Minutes
Print Success Rate*
98 %
Avg. Learning Curve
60 Minutes
*Minimize the risk of print faliures caused by slicing.
*Minimize the risk of print faliures caused by slicing.
Avg. Learning Curve
60 Minutes
Print Success Rate*
98 %
Pre-processing
10 Minutes
Intelligent Analysis to Ensure Printability
Scaffold Supports, Smart Layout
Based on Structural Analysis
Based on Structural Analysis
Lowest Point Detection
Structural Reliability Analysis
① Intersection Avoidance
② Support Anchors
③ Fewer Pillars
② Support Anchors
③ Fewer Pillars
Support Optimization
Structural Reliability Analysis
Lowest Point Detection
Support Optimization
① Intersection Avoidance
② Support Anchors
③ Fewer Pillars
② Support Anchors
③ Fewer Pillars