Delivery Time:3-7 working days
Certification:ISO
3d rapid prototyping used spherical powder TC4, 316L, AlSi10Mg, In718
Specification
TC4
Ti (balance)
Al (5.5 - 6.75 wt-%)
V (3.5 - 4.5 wt-%)
O (< 1600 ppm)
N ( < 500 ppm)
H ( < 150 ppm)
Fe ( < 3000 ppm)
Density 4.40g/cm³
Particle size -250mesh
Powder particle specific surface area 0.1910m/g
Degree of sphericity ≥97%
Recommended layer thickness 30, 40 um
Apparant density 59.3%
Relative density of formed parts Approx. 100%
316L
Fe (balance)
Cr (17.2- 18.5wt-%)
Ni (11- 14 wt-%)
Mo ( 2-3wt-%)
Si ( < 1 wt-%)
Mn ( < 1.5 wt-%)
Cu ( < 0.5 wt-%)
O (<800ppm)
Density 7.93g/cm³
Particle size -270mesh
Powder particle specific surface area 0.102cm²/g
Degree of sphericity ≥94%
Recommended layer thickness 20,30,40um
Apparant density 61.0%
Relative density of formed part Approx.100%
In718
Fe (balance)
Cr ( 17.20-21.0 wt-%)
Ni ( 50-55 wt-%)
Mo ( 2.8-3.3wt-%)
Ti ( 0.65-1.15 wt-%)
Al ( 0.2-0.8 wt-%)
Co ( ≤ 1 wt-%)
Cu ( ≤ 0.3 wt-%)
C ( ≤0.08 wt-%)
Si, Mn (each ≤ 0.35 wt-%)
P, S (each< 0.015 wt-%)
O (< 700ppm)
Density: 8.15 g/cm³
Particle size: -250mesh
Powder particle specific surface area: 0.11cm²/g
Degree of sphericity: ≥96%
Recommened layer thickness: 20,30,40um
Apparant density: 55%
Relative density of formed parts: approx.100%
AlSi10Mg
Al (balance)
Si (9.0 – 11.0 wt-%)
Fe (≤0.55 wt-%)
Cu (≤0.05 wt-%)
Mn (≤0.45 wt-%)
Mg (0.02 - 0.45 wt-%)
Ni (≤0.05 wt-%)
Zn (≤0.05 wt-%)
Ti (≤0.15 wt-%)
P, S (each≤0.01 wt-%)
Competitive advantage
Adopt advanced vacuum gas atomization technology.
Customized particle size distribution.
Free sample is available.
Good flowability and apparent density.
Low oxygen content.
High purity.
On-time delivery.
Good toughness.
Fine moisture property.
Detailed image
Advanced and mature vacuum gas atomization technology.