From Prototype Lab to Production Line
See what’s now possible when additive manufacturing breaks free from layers and print farms. P-VAM enables complex geometries, mass customization, and production speeds that traditional methods simply can’t achieve.
What P-VAM Makes Possible
Complex Internal Geometires
Create impossible internal structures without support materials—cooling channels, lattice structures, and complex flow paths that traditional manufacturing can’t produce.
Overprinting & Embedding
Directly embed objects, electronics, or other components within fabricated parts. Simplify assembly by integrating multiple manufacturing steps into one process.
Mass Customization
Serial production of unique geometries at speeds that make mass customization economically viable for the first time.
High-Volume Custom Production
Traditional manufacturing struggles with the economics of mass customization. P-VAM’s speed enables production of unique geometries—like dental aligners or custom medical devices—at scales that were previously impossible.
- Each part completely unique, no tooling required
- Production speeds that support real manufacturing volumes
- Complex geometries that improve patient outcomes
Next-Generation Component Design
The AI boom demands increasingly complex data center components. P-VAM enables connector geometries and heat management solutions that traditional methods can’t manufacture.
- Complex internal cooling channels
- Integrated multi-material assemblies
- Geometries optimized for performance, not manufacturing constraints
Direct Manufacturing Integration
While traditional 3D printing requires separate print farms, P-VAM integrates directly into assembly lines. Manufacture components exactly when and where needed in the production process.
- No inventory of complex custom parts
- Just-in-time production capabilities
- Reduced assembly complexity through overprinting
Explore the Possibilities
Current Capabilities
- Speed that changes the game: Parts that traditionally take hours now finish in minutes, making production scale additive possible
- Impossible geometries made possible: Complex internal channels, overhangs, and "unmoldable" designs impossible with legacy manufacturing
- Production-grade precision: Engineered for high-resolution applications, P-VAM delivers smooth, complex, and isotropic parts directly from your digital file
- Material flexibility beyond traditional additive: High-viscosity resins, engineering grades, and filled composites that layer based additive struggles to handle
Future Manufacturing Platform
- Electronics integration without assembly: Embed electronic elements, sensors, and components directly inside parts during the build process
- Seamless production line integration: Toolheads that drop directly into existing assembly lines, not standalone printer farms
- Unlimited build envelope scaling: Break free from fixed build chambers with modular systems that scale to your part size
- Multi-material in single builds: Combine rigid and flexible materials, or different properties, all in one continuous manufacturing step
- Adaptive manufacturing intelligence: Real-time process optimization that adjusts for each part's unique requirements on the fly
Industries Ready for Breakthrough
Dental & Orthodontics
Mass customization at unprecedented scale
Medical Devices
Bio-Printing, Micro/Macro Fluidics, Tissue Engineering, and Wearables for better patient outcomes.
Electronics & Data Centers
Next-gen components for AI infrastructure
Automotive & Aerospace
Lightweight, complex assemblies
Ready to Explore Production- Scale Additive?
Join leading manufacturers exploring how P-VAM technology can solve their most challenging production problems. Our evaluation module provides hands-on experience with breakthrough capabilities.