Produkt

SLPA-N50

The medium-scale PREP system (SLPA-N50) is purposely designed for continuous, industrial mass production of high quality spherical metal powders with the following characteristics:

  • Angemessene Kosten für die Produktion mittlerer Chargen
  • Ergonomisch freundlich, einfach zu bedienen
  • Einfaches und professionelles Mensch-Maschine-Schnittstellendesign
  • Relatively high fine powders output rate (Max. rotating speed: 30,000rpm)
  • Die hergestellten Pulver haben eine hohe Sphärizität (über 90%) und eine hohe Qualität, wie z. B. Pulver mit geringer Porosität, Pulver mit geringer Satellitenbildung, hohe Reinheit (geringe Sauerstoffzunahme, ≤ 120 ppm) aufgrund der Zerstäubung in der inerten Schutzatmosphäre.
  • Schmelztemperatur ≥2600℃, geeignet für die Herstellung von Ti-Legierungen, Stählen, Superlegierungen,
  • Feuerfeste Legierungen, Legierungen mit hoher Entropie usw.

SLPA-D30

The small-scale PREP system (SLPA-D30, desktop level) is purposely designed for R&D of novel alloy powders and small batch production of high quality powders with the following characteristics:

  • Relativ niedrigere Kosten für die Produktion mehrerer Kleinserien
  • Schnellerer Wechsel für Multi-Kleinserien und diversifizierte Pulverproduktion (Zeitreduzierung)
  • Ergonomisch freundlich, einfach zu bedienen
  • Einfaches und professionelles Mensch-Maschine-Schnittstellendesign
  • Hohe Ausstoßleistung für feine Pulver durch hohe Drehzahl (bis zu 50.000 U/min)
  • Die hergestellten Pulver haben eine hohe Sphärizität (über 95%) und eine hohe Qualität, wie z. B. Pulver mit geringer Porosität, Pulver mit geringer Satellitenbildung, hohe Reinheit (geringe Sauerstoffzunahme, ≤ 100 ppm) aufgrund der Zerstäubung in der inerten Schutzatmosphäre.
  • Kann fast alle Metallpulver herstellen, deren Stäbe elektrisch leitfähig sind, insbesondere für Refraktärmetalle, hochaktive Metalle, Superlegierungen usw.

SLPA-N75

The large-scale PREP equipment (SLPA-N75) is purposely designed for continuous, industrial mass production of high quality spherical metal powders with the following characteristics:

  • Angemessene Kosten für die Produktion großer Serien
  • Ergonomisch freundlich, einfach zu bedienen
  • Einfaches und professionelles Mensch-Maschine-Schnittstellendesign
  • Relatively lower fine powders output rate (rotating speed up to 22,000rpm)
  • Die hergestellten Pulver haben eine hohe Sphärizität (über 90%) und eine hohe Qualität, wie z. B. Pulver mit geringer Porosität, Pulver mit geringer Satellitenbildung, hohe Reinheit (geringe Sauerstoffzunahme, ≤ 200 ppm) aufgrund der Zerstäubung in der inerten Schutzatmosphäre.
  • Geeignet für die Herstellung von Metallpulvern mit einem Schmelzpunkt von ≤2.600℃

SEBM-T200

Our powder bed selective electron beam melting 3D printing system – T200 is suitable for low-cost rapid printing and forming with the metal powders, such as Ti6Al4V(TC4), Ti600, TiAl intermetallic compounds, copper alloys, stainless steel, high-temperature alloys, refractory metals, high entropy alloys, hard alloys and other materials. The main technical characteristics are as follows:

  • Equipped with a high-power and long-life intermittent heating electronic gun, it can quickly preheat a powder bed with a width of 200mm x 200 mm to above 1100 ℃ to achieve the higher dimensional accuracy of formed parts;
  • Forming in a vacuum environment results in higher purity and cleanliness of the formed parts;
  • The maximum power is 6kW, with higher energy absorption and utilization efficiency (electron beam to material);
  • The powder bed temperature is ≥ 1100 ℃, which allows the printed parts to have lower forming thermal stress and residual stress;
  • More formable materials, including but not limited to Ti6Al4V(TC4), Ti600, TiAl intermetallic compounds, copper alloys, stainless steel, high-temperature alloys, refractory metals, high entropy alloys, hard alloys, etc.
  • The up-to-down powder feeding method is applied, so the powder quantity in the powder bin can be detected in real time;
  • Equipped with brand new powder recycling equipment, the powder removing process after printing is more efficient and convenient;
  • Our SEBM printing system with independent intellectual property rights can independently adjust process parameters to adapt to the development of different material forming processes.

SEBM-Y150 / Y150Plus

SEBM-Y150/Y150Plus is specially designed for precise manufacturing / printing, such as orthopedic implants, high-precision small parts for aerospace/military/industry, etc, which is also good for the users who want to develop new materials for PBF-SEBM technology with lower cost.

The characteristics of SEBM-Y150/Y150 Plus are as follows:

  • can print the parts with metal powders, including but not limited to refractory metals, zirconium alloys, titanium alloys, pure copper, high-temperature alloys, TiAl intermetallic compounds, etc.
  • The printing/forming process parameters are open-source;
  • The diameter of the beam spot is finer, the forming accuracy is higher, and it is more suitable for the forming of implants with bone trabecular structures;
  • The formed parts can be directly separated from the bottom plate without extra machining, effectively avoiding secondary pollution;
  • Equipped with active cooling, the cooling speed is increased by 30%, which improves production efficiency;
  • Specially suitable for high-quality forming of active, high melting point medical materials such as Ti6Al4V(TC4), CoCrMo, Ta, etc;
  • After high-temperature preheating, the powder will bond together with a certain strength, and the parts have little dependence on support. and they can be stacked and printed to achieve the high production efficiency.

SEBM-H400

SEBM-H400 is developed for printing large-size complex parts or seriesly printing small-size and medium-size complex parts with a bigger forming chamber for aerospace/military/industry, etc, which is also good for the users who want to develop new materials for PBF-SEBM technology with lower cost.

The characteristics of SEBM-H400 are as follows:

  • can print the parts with metal powders, including but not limited to refractory metals, zirconium alloys, titanium alloys, pure copper, high-temperature alloys, TiAl intermetallic compounds, etc.
  • The printing/forming process parameters are open-source;
  • The formed parts can be directly separated from the bottom plate without extra machining, effectively avoiding secondary pollution;
  • Equipped with active cooling, the cooling speed is increased by 30%, which improves production efficiency;
  • Specially suitable for high-quality forming of active, high melting point medical materials such as Ti6Al4V(TC4), CoCrMo, Ta, etc;
  • After high-temperature preheating, the powder will bond together with a certain strength, and the parts have little dependence on support. and they can be stacked and printed to achieve the high production efficiency.

Geschätzter Dienst

Darüber hinaus können wir die im Vakuumschmelzverfahren hergestellten Rohmaterialstäbe auch für PREP-Anlagen, Sonderanfertigungen oder Serienfertigung liefern.

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