The Doosan Puma VT900M is a high-performance CNC vertical turning center designed for heavy-duty machining of large and complex components. Built by Doosan Machine Tools (now DN Solutions), this model is part of the VT series, known for combining rigidity, power, and multi-tasking capability.
The VT900M features a maximum turning diameter of approximately 900 mm and a turning height of around 850 mm, making it ideal for large-diameter parts such as flanges, housings, and rings. It is equipped with a powerful spindle motor of up to 45 kW (60 HP) and spindle speeds reaching 1,800 RPM, delivering high torque for demanding cutting applications.
One of the key advantages of the VT900M is its live tooling capability and C-axis functionality, allowing milling, drilling, and tapping operations in a single setup. The machine includes a 12-station turret, rigid box guideways, and a heavy cast structure for excellent vibration damping and long-term accuracy.
Overall, the Puma VT900M is a versatile and powerful vertical turning solution designed for high productivity, precision machining, and reduced setup times in demanding industrial environments.
DOOSAN PUMA VT900MSPECIFICATIONS
DOOSAN PUMA VT900M – AXIS
X-Axis
Z-Axis
C-Axis (Spindle Indexing & Positioning)
Live Tool Capability
DOOSAN PUMA VT900M – AXIS TRAVELS
X-Axis Travel: ~500 mm
Z-Axis Travel: ~900 mm
DOOSAN PUMA VT900M – CAPACITY
Maximum Turning Diameter: ~1,100 mm
Maximum Turning Length: ~900 mm
Maximum Swing Over Bed: ~1,300 mm
Maximum Swing Over Saddle: ~1,000 mm
DOOSAN PUMA VT900M – SPINDLE
Spindle Nose: A2-15
Spindle Bore: ~165 mm
Maximum Spindle Speed: ~1,000 RPM
Main Motor Power: ~45/55 kW
High Torque Gear-Driven Spindle
DOOSAN PUMA VT900M – TABLE
Table Type: Vertical Turning Table
Table Diameter: ~900 mm
Maximum Table Load Capacity: ~2,500–3,000 kg
Designed for Heavy-Duty Machining
DOOSAN PUMA VT900M – TOOL TURRET
Turret Type: Live Tool Turret
Number of Stations: 12
Tool Size (OD): ~32 mm
Boring Bar Size: ~63 mm
Live Tooling for Milling, Drilling & Tapping
High Rigidity Turret Design
DOOSAN PUMA VT900M – FEEDRATES
Rapid Traverse (X/Z): ~18 / 20 m/min
Cutting Feed Rate: Programmable
High Torque Feed Drive System
DOOSAN PUMA VT900M – COOLANT & CHIP MANAGEMENT
Coolant System: Flood Coolant
Coolant Tank Capacity: ~350–450 Liters
Chip Disposal: Heavy-Duty Chip Conveyor
Efficient Chip Removal for Large Parts
DOOSAN PUMA VT900M – CONTROL SYSTEM
CNC Control Options: FANUC / Siemens
Advanced User Interface
Multi-Tasking (Turning + Milling) Capability
High-Speed Data Processing
DOOSAN PUMA VT900M – POWER & AIR REQUIREMENTS
Power Requirement: ~380–415V, 3 Phase
Connected Load: ~90–100 kVA
Air Requirement: ~5–6 bar
Stable Continuous Air Supply Required
DOOSAN PUMA VT900M – DIMENSIONS
Machine Footprint: ~3.8 m x 3.2 m
Machine Height: ~4.0 m
Machine Weight: ~20,000–23,000 kg
DOOSAN PUMA VT900M – GENERAL INFORMATION
Machine Type: Vertical Turning Center with Milling
Designed for Large & Complex Components
High Rigidity Meehanite Casting
Multi-Tasking Capability Reduces Setup Time
Ideal for Heavy Industrial Applications
INDUSTRIES THAT USE DOOSAN PUMA VT900M
Oil & Gas Industry
Energy & Power Sector
Heavy Equipment Manufacturing
Aerospace Industry
Shipbuilding Industry
TYPICAL PARTS DOOSAN PUMA VT900M CAN PRODUCE
Large Flanges with Milling Features
Turbine Components
Pump Housings
Valve Bodies
Bearing Housings
Complex Heavy Rings
WHY CHOOSE DOOSAN PUMA VT900M
Combined Turning & Milling Capability
Ideal for Large Complex Components
High Torque and Heavy Cutting Performance
Reduced Setup Time with Multi-Tasking
Strong and Stable Machine Structure
Efficient Chip Handling for Large Parts
WHY BUY USED DOOSAN PUMA VT900M
Buying a used Doosan Puma VT900M is a strong investment for manufacturers looking for advanced vertical turning and milling capabilities without the cost of a new machine. One of the biggest advantages is cost efficiency—used machines can offer significant savings while still delivering high performance, especially in heavy-duty applications.
The VT900M is built with a rigid box guideway structure and heavy-duty components, ensuring long-term durability. Machines from Doosan Machine Tools are known for maintaining accuracy and reliability even after years of continuous operation. This makes the VT900M suitable for industries handling large and heavy components.
Another key benefit is multi-tasking capability. With live tooling and C-axis functionality, the machine can complete multiple operations in a single setup, reducing cycle times and improving productivity. This is particularly valuable for complex part machining and medium-batch production.
Additionally, used machines are typically available immediately, avoiding long lead times associated with new equipment. Spare parts and service support—especially for Fanuc systems—are widely accessible, making maintenance easier.
Overall, a used VT900M provides a powerful, flexible, and cost-effective solution for expanding machining capabilities.
HOW MUCH DOES A USED DOOSAN PUMA VT900MCOST?
The cost of a used Doosan Puma VT900M depends on factors such as year of manufacture, condition, configuration, and cutting hours. Since the VT900M is a relatively modern machine, units manufactured before 2000 are generally not available in this model range.
Machines from the 2000–2010 period typically range between $50,000 and $100,000, depending on condition and usage. For example, a 2010 model with standard configuration and moderate cutting hours falls within this price range, reflecting its capability and demand.
For machines built between 2010 and 2025, prices generally range from $100,000 to $250,000 or more. These machines often include advanced features such as live tooling, C-axis control, improved automation, and lower cutting hours, making them suitable for high-precision and high-volume production.
Cutting time plays a critical role in pricing. Machines with low spindle hours (for example, under 5,000 hours) command premium prices, while machines with higher usage are more affordable but may require maintenance—especially in spindle systems, turret assemblies, and live tooling components.
