ProX DMP 300
- Maximum structure size:
250X250X330 mm. - Optimal feature detail and extremely thin wall thickness.
- Surface finish quality of up to 200-5 Ra μM requiring less post processing.
- Very dense, non-porous parts.
- Accuracy of +/- 50 μm (+/- 0.002 inches) on small parts,
+/- 0.2% on large parts. - Repeatability of approximately 20 μm.
- Produce 20 degree angles without supports.
- Fewer supports and improved surface quality mean less post processing and less material usage – hence, saving time and cost.
We will use Stainless Steel 17-4PH: A general purpose metal powder with high strength, good corrosion resistance and thermal properties – for reasons of machine purity and compliance with iso9001 standards.
The Prox DMP300 printer can also work with the following materials:
Aluminum alloy AlSi12: Metal powder for the additive manufacturing of lightweight parts with good thermal properties and a high strength-to-weight ratio, for industrial prototypes, production parts and spare parts. As well as for thin-walled parts.
CoCr: Metal powder for the additive manufacturing of highly corrosion-resistant industrial parts that require high temperature resistance.
Maraging Steel: Fine metal powder for the direct production of tools and molds as well as high-performance parts that require high strength and stiffness.
Using the DMP method:
Direct Metal Printing.
This 3D printing technology is also called laser sintering. In this method, a laser is used to sinter the powdered metal material.
Additive manufacturing of industrial parts that require corrosion resistance or high temperature resistance.
This printer can be used to produce the following products:
Custom dentures, orthopedic implants, tire molds, watches, jewelry, aircraft parts, and molds.
Small, complex metal parts with high quality and high speed.
High-performance, high-quality metal 3D printed parts manufacturing system.
Reduced waste, higher production speeds, short set-up times, very dense metal parts and the ability to produce complex assemblies.
Consistently high-precision parts even on first build.
High surface finish.
Reduce production time and increase part accuracy
