Technologies
Additive manufacturing technologies compatible with 3Dresyns® material families.
This section provides a structured overview of additive manufacturing process routes compatible with 3Dresyns® material families.
Navigate by: technology route, then access compatible material families and the technical resources required for implementation.
Technology selection is only the first step. For reproducible results, connect each process route with material selection, process control, dimensional verification, IFU and validation.
Technologies should be implemented within a structured workflow integrating material selection, process control, dimensional verification, failure diagnosis and validation.
Vat and jetting processes
SLA / DLP / LCD
Vat photopolymerization processes based on layer-by-layer curing of liquid resins using lasers, projectors or LCD masking systems.
Inkjet / Material Jetting
Drop-on-demand deposition of photopolymers followed by curing, enabling fine surface quality and specialized jettable material workflows.
Advanced photopolymer processes
Two-Photon Polymerization (2PP)
Ultra-high resolution fabrication using nonlinear light absorption for nano- and micro-scale structures.
Volumetric Additive Manufacturing (VAM)
Volumetric curing processes enabling rapid fabrication without conventional layer-by-layer construction.
Nano & Micro Fabrication
High-resolution fabrication of structures from sub-micron to micro-scale dimensions for photonics, optics, sensing, medical and research applications.
Powder-based processes
Selective Laser Sintering (SLS)
Powder-bed fusion process for producing functional polymer components without support structures.
Manufacturing architecture
Direct vs Indirect Additive Manufacturing
Technology selection must be combined with manufacturing architecture. The same printer can be used either to produce final parts directly or to create molds, patterns, tooling elements or sacrificial intermediates for downstream manufacturing.
Indirect Additive Manufacturing
Use of printed molds, patterns or sacrificial elements for casting, injection, forming, composite manufacturing and powder feedstock shaping.
Lithography-based Metal Manufacturing (LMM)
Photopolymer-based shaping of metal-loaded systems followed by debinding and sintering for advanced metal manufacturing workflows.
How to use this section
Select a technology, then explore compatible material families and implementation resources. Final process validation must always be performed for the specific printer, material, geometry and intended application.