This is the basic aluminum alloy with good casting properties and performance during powder bed fusion. Alloy offers good strength and ductility after annealing. Properties are equal or better than traditional casting Al-Si alloys. Printed parts can be treated in a similar manner as for casted parts.
RS-320 is a novel Al-Si-Cu alloy with high processability via powder bed fusion. The alloy can be used both after annealing or T6 temper. Heat treatment improves the elongation and decreases internal stresses which may cause distortion. T6 temper ensures better fatigue performance, with slightly lower strength. Building rates are equal or better than ones for AlSi10Mg alloy. RS-320 alloy can be used as the substitution of traditional casting and some wrought aluminium alloys with medium strength.
RS-390 is an Al-Si-Ni alloy with good processability via powder bed fusion (PBF) and increased working temperature. Alloy can be used both after annealing or standard T6 temper. T6 temper ensures the better strength performance. The alloy can be used as structural material for various applications (automotive, aerospace, etc.) under the heating up to 250°С.
RS-507 is a high-strength Al-Mg alloy with good heat treatment response for structural parts. High level of mechanical properties is achieved along with the absence of expensive components in chemical composition. The parts or samples do not require solution treatment followed by quenching. Corrosion resistance of the alloy is similar to traditional 5XXX alloys. The alloy is a good substitute of aluminum wrought analogues for various applications.
Unique plasma atomization process produces a highly spherical Titanium alloy powder, which combines high packing density and excellent flowing properties. The spherical Ti64 powder is the material of choice for
Additive Manufacturing and Metal Injection Moulding. Ti-6Al-4V powder is also compatible with the most demanding industrial markets.
Unique plasma atomization process produces a highly spherical nickel alloy powder, which combines high-packing density and excellent flowing properties. On top of these class-leading properties, you will benefit from decades of know-how in plasma powder metallurgy of an aerospace-rated quality system. Nickel-based alloyed powder is the material of choice for Additive Manufacturing in high-temperature structural applications, where superior mechanical and chemical properties are required.