High-quality Binder Jetting 3D printed parts for industrial applications, jewelry, and functional prototypes. Access our vetted network of manufacturing partners in Italy and order custom metal and alloy parts with exceptional resolution and strength.
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Wide range of metal and alloy powders
ISO 9001:2015, ISO 27001 & AS9100D accredited
Backed by industry leaders:
Binder Jetting (BJ) is an additive manufacturing technology thatutilizes a liquid binding agent to selectively adhere powder particles layer bylayer, creating highly detailed parts. This process enables the production ofcomplex metal and alloy components with fine resolution and high surfacequality. Binder Jetting is widely used in aerospace, medical, and jewelryindustries.
17-4 PH stainless steel is a martensitic precipitation-hardenable alloy known for its exceptional corrosion resistance and mechanical strength. It maintains high-performance properties at temperatures up to 320°C, making it suitable for aerospace, chemical, petrochemical, and industrial applications.
AISI 316L is an austenitic stainless steel alloy offering superior corrosion resistance and good mechanical properties. Its versatility makes it ideal for applications in aerospace, chemical, food, medical, and biomedical engineering. It is especially suitable for manufacturing intricate and precision components.
This high-purity, nickel-free stainless steel powder is specifically designed for additive manufacturing, particularly Binder Jetting. Produced via gas atomization, it ensures a controlled particle size distribution, leading to high-strength, high-quality parts suitable for demanding industrial applications.
A proprietary platinum-based alloy containing 950‰ platinum and ruthenium, developed for additive manufacturing. Using a specialized gas atomization process, this powder offers high-purity, precisely controlled particle size, and excellent durability, making it ideal for high-precision jewelry and industrial applications.
A 93% pure silver alloy designed for additive manufacturing. This oxygen-free, high-purity silver powder is gas-atomized to achieve spherical particles with a strictly controlled size distribution, ensuring the highest quality parts for precision applications in jewelry and fine detailing.
A high-quality bronze alloy designed for high-resolution Binder Jetting applications. Engineered for precision and durability, this powder is widely used in jewelry manufacturing and decorative applications, offering superior strength and detailed finishes.
Material
Max. dimensions
Tensile Stress at break (MPa)
Tensile Modulus (GPa)
AISI 316L
430x310x150 mm
530-561
162
Panacea Nichel free
-
831
-
Pt950
-
-
-
Ag925
-
-
-
Bronze
-
-
-
Wood
-
-
-
Enhances part precision with tight tolerances and smooth surfaces through post-processing on DMLS printed components.
Improves mechanical properties and strength of metal parts through controlled heating and cooling processes.
Produces smooth, glossy surfaces for improved aesthetics or functional requirements on metal parts.
High-resolution, intricate metal part production
No support structures required
Suitable for batch production with fast turnaround times
Enables complex geometries and fine surface details
Requires sintering or infiltration for final strength
Surface porosity may require post-processing
Material properties depend on post-treatment methods
Capabilities
Max. Dimensions
Min. Feature Size
Min. wall thickness
Tolerance
Description
SLS
680x380x540 mm
0.8mm
0.7-1.3 mm
±0.3% (±0.3mm)
Uses a laser to fuse powdered materials layer by layer, ideal for creating durable and complex parts without support structures, widely employed in aerospace, automotive, and medical industries.
DMLS
500x280x340 mm
0.6-0.8 mm
0.22 mm
±0.25 (≤15mm);
±0.5 (>15mm)
Similar to SLS but uses metal powders, producing high-strength, intricate metal parts suitable for functional prototypes and end-use components in aerospace, medical, and automotive industries.
SLA
1350x750x500 mm
0.2-0.5 mm
1-3 mm
±0.2% (min. 0.2 mm)
Employs a UV laser to cure liquid resin into solid layers, ideal for creating highly detailed, smooth, and intricate parts. Widely used for detailed prototypes and intricate designs in jewelry and dental applications.
MJF
380x284x380 mm
0.5 mm
0.3-0.5 mm
±0.3% (±0.2 mm)
Utilizes multiple jets to apply fusing agents onto powder, which is then fused by heating elements. Delivers high-resolution, functional parts with fast production times, often used in aerospace, automotive, and consumer goods industries.
Polyjet
490x380x200 mm
1.2-2 mm
1 mm
±0.1%
Jetting liquid photopolymer resin and curing it layer by layer with UV light, enabling highly detailed, multi-material parts with diverse properties. Popular in prototyping and complex, color-rich models in medical modeling, consumer goods and electronics fields.
FDM
914x690x914 mm
1.2-1.5 mm
1.5 mm
±0.5% (±0.5 mm)
Uses a heated nozzle to extrude thermoplastic filament layer by layer, ideal for creating durable and functional prototypes. Commonly used in manufacturing, automotive, and consumer products.
DLP
510x280x350 mm
0.5 mm
1 mm
±0.30 mm < 100mm;
±0.3% > 100 mm
Uses a digital light projector to cure liquid resin layer by layer, providing fast and precise prints with high resolution. Commonly used in dental, jewelry, and high-detail prototype applications.
Large Scale
2500x2500x4000 mm
3 mm
-
±5 mm/mtl
Uses a digital light projector to cure liquid resin layer by layer, providing fast and precise prints with high resolution. Commonly used in dental, jewelry, and high-detail prototype applications.
DED
1200x800x600 mm
-
-
-
Uses an electron beam to melt and deposit metal powders or wire, ideal for repairing or adding features to metal parts in aerospace and manufacturing.
Bindet Jet
430x310x150 mm
-
-
±3% mm
Involves depositing a binder material onto a powder bed to form parts, which are then sintered. Useful for producing complex, cost-effective parts, often used automotive, aerospace, and consumer goods industries as well as jewerky.
Binder Jetting 3D printed parts exhibit excellent resolution and fine detailing. However, final mechanical properties depend on post-processing techniques such as sintering and infiltration.
Binder Jetting parts typically achieve dimensional tolerances of ±3% . Final tolerances may vary based on post-processing and sintering and it is possible to setup the process parameters to increase the precision and the dimensional tolerances.
- Minimum Feature Size: Typically, 1-2 mm for structural integrity, but it depends on the part geometry.
- Surface Finish: Raw parts may exhibit porosity and require post-processing for enhanced surface quality.
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