Equipo de fusión por haz de electrones selectivo (EBM/SEBM) GST-T200 (Producción en masa de piezas complejas con alta precisión y bajo costo)

Presentación de las características del equipo

High-power, high-precision, long-life thermal electron gun and larger forming size
Applicable to the mass, high-precision, low-cost production of complex parts such as orthopedic implants and TiAl brittle and difficult-to-process materials
Maximum forming size: 200×200×450mm; Applicable materials: medical materials such as titanium and titanium alloys, tantalum, zirconium and niobium; brittle and difficult-to-process materials such as titanium and aluminum; refractory metals and alloys such as tungsten and niobium

Equipo de fusión por haz de electrones selectivo (EBM/SEBM) GST-T200 (Producción en masa de piezas complejas con alta precisión y bajo costo)
  1. Forming size of 200×200×450mm, fully leveraging the advantages of electron beam stacking printing.
  2. 6kW electron gun power, capable of rapidly preheating a 200×200mm forming area to 1100℃, significantly improving printing efficiency.
  3. Minimum beam spot diameter ≤200μm, meeting the demand for more precise and detailed printing of parts.
  4. Cathode lifespan >500 hours, supporting the continuous long-time printing required for large-sized parts or batch production.
  5. Tanto el cátodo del cañón de electrones como el cátodo auxiliar son de tungsteno, lo que proporciona una gran durabilidad y permite una fabricación de piezas rentable.
  6. Variable energy density preheating technology ensures uniform heating temperatures within the forming area, including the substrate and powder bed.
  7. Utilizes downward powder feeding technology with real-time powder quality monitoring, improving powder collection and spreading accuracy and stability while reducing the requirements for powder flowability during printing.
  8. La impresión en ambiente de vacío permite un incremento mínimo de oxígeno, piezas más puras, mayor libertad de diseño, menos soportes y sin necesidad de tratamiento posterior al calentamiento.

Supporting materials: medical materials such as titanium and titanium alloys, tantalum, zirconium and niobium; brittle and difficult-to-process materials such as titanium and aluminum, refractory metals and alloys such as tungsten and niobium, etc.

Application cases: full-plate titanium alloy acetabular cup, full-plate titanium and aluminum blade

Tamaño máximo de construcción200×200×450 mm
Potencia del haz6 kW
Tensión de aceleración de electrones60 kV
Corriente del haz0~100 mA
Duración del filamento>500 h
Tipo de cátodoCátodo de tungsteno calentado indirectamente
Diámetro mín. del haz≤200 μm
Temperatura máx. de precalentamiento del lecho de polvo1100 ℃
Vacío definitivo5×10-3 Pa
Precisión de construcción de los componentes±0,2 mm
Dimensión exterior2400×1900×3600 mm3
Peso de la máquina4.5 t
CAD (interfaz)STL
Software de controlSEBM-ICS

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