Binder jetting is an fabrication additive process where a liquid binding agent is selectively deposited onto a powder bed using an inkjet-style print head. The print head moves across a layer of powder, depositing binder droplets to join particles together. The build platform then lowers, a new layer of powder is spread, and the process repeats layer-by-layer.
Binder Jetting
1993
- Ely Sachs
- Michael Cima
The primary advantage of binder jetting is its speed and scalability, as the inkjet deposition process is typically faster than laser-based methods. It also operates at room temperature, which avoids the thermal stresses and warping common in high-temperature processes. This makes it suitable for a wide range of materials, including sand, metals, ceramics, and polymers. After printing, the part exists in a fragile ‘green state,’ held together only by the binder. It must be carefully excavated from the surrounding loose powder. For metal and ceramic parts, a crucial post-processing step is required to achieve final density and strength. This typically involves sintering in a furnace to burn out the binder and fuse the material particles, a process that causes significant and predictable shrinkage. Alternatively, the green part can be infiltrated with a lower-melting-point metal, such as bronze, to fill the pores and create a dense composite. A unique feature is the ability to incorporate color into the binder, allowing for the creation of full-color 3D models directly from the printer.
UNESCO Nomenclature: 3313
- Technologie industrielle
Type
Manufacturing Process
Perturbation
Important
Utilisation
Une utilisation répandue
Précurseurs
- inkjet printing technology developed in the 1970s
- powder metallurgy for processing powdered materials
- computer-aided design (cad) for creating digital blueprints
- traditional sand casting techniques used in foundries
- development of specialized chemical binding agents
Applications
- full-color prototypes and architectural models using gypsum powder
- large sand casting molds and cores for industrial foundries
- production of metal parts via subsequent sintering or infiltration
- manufacturing of complex ceramic components
- high-speed, large-scale part production
Brevets :
- US 5204055 A
Innovations potentielles Idées
Related to: binder jetting, 3dp, additive manufacturing, powder bed, inkjet, binder, green part, sintering, infiltration, sand casting.
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Intégration électronique métal-plastique, Conception à coût réduit, BPF, Ergonomie, Appareils et consommables de volume moyen à élevé, Production allégée, Secteurs réglementés, CE et FDA, CAO, Solidworks, Lean Sigma Black Belt, ISO 13485 médical
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