Large Format 3D Printing
Titan
Pro
3D
Titan Pro Professional 3D Printer
Print Bigger. Faster. Smarter. Titan Pro delivers a 500×500×500mm build volume, 300°C high-performance materials, and Klipper-powered speed, ideal for large, industrial-grade prints in one run.
Ultra-Large Build Volume
AI-Powered Failure Detection
Fully Enclosed Metal Frame
500³
MM BUILD VOLUME
300°
NOZZLE MAX °C
120°
BED MAX °C
200 mm/s
MOVEMENT SPEED
32 bit
CONTROL BOARD
20+
MATERIAL CLASSES
Product Overview
Print Bigger. Print Faster. Print Smarter.
With a massive 500mm build volume, Titan Pro enables industrial-scale production without compromising precision.
500×500×500MM — NEARLY 4× THE BUILD VOLUME OF STANDARD PRINTERS
The Titan Pro is engineered specifically for BIG projects. Its 500×500×500mm build volume eliminates the need to split large designs across multiple prints, dramatically reducing post-processing time and improving structural integrity of final parts.
High-temperature capabilities — 300°C hotend and 120°C heated bed — open the full material spectrum from basic PLA through engineering-grade Nylon, Polycarbonate, and abrasive carbon fiber composites.
Industrial-grade linear guide rails and ball screws replace the standard rods and belts found on consumer printers, delivering consistent precision under continuous heavy-use manufacturing conditions.
The Titan Pro arrives pre-assembled and factory-tested. Unbox, run the auto bed leveling routine, load filament, and begin printing within minutes — with no complex calibration required.
Klipper firmware with Input Shaping and Pressure Advance enables print speeds that outperform comparable large-format machines — including a verified 17-minute 3D Benchy benchmark at high quality settings.
Filament runout and jam detection, AI-based spaghetti failure detection, and thermal runaway protection work together to protect long multi-hour print jobs from material and time waste.
Core Features
Built for serious 3D printing
High Precision Motion System Delivers consistent accuracy even at high speeds
Klipper Firmware
Native Klipper with input shaping, pressure advance, and resonance compensation. Control from any browser or mobile on your local network.
Plug & Print Ready
Ships fully assembled and individually tested. ABL probe, 5" HDMI touchscreen, HEPA filter, and Klipper pre-configured. Unbox and print.
CoreXY Architecture
High-acceleration CoreXY kinematics with precision steppers. 17-minute Benchies are standard — with no quality trade-off at speed.
Industrial Guide Rails
Hiwin / PMI grade linear rails on all axes with zero backlash. Sub-0.1mm repeatability, built for 10,000+ hours of operational service life.
32-Bit Control Board
High-performance 32-bit MCU manages motion planning, heating, and monitoring simultaneously — smooth and bottleneck-free.
AI Failure Detection
Built-in camera with intelligent monitoring detects print failures and runout — pausing automatically before material is wasted.
Performance Benchmark
SPEED THAT SETS RECORDS
Klipper firmware, high-flow hotend, and optimized motion kinematics combine to achieve what most large-format printers cannot.
High-Acceleration Motors
200
mm/s movement
Print Speed Range
120
mm/s max
Layer Resolution
100
µm – 0.4mm nozzle
Nozzle Options
0.4
mm – 1.2mm
Input Shaping
Auto
calibration via sensor
Large Format
3D Printing
Verified high-quality benchmark at standard print settings
SPECIFICATIONS
Full Technical Data
Complete technical specifications of the Titan Pro large-format industrial 3D printer.
Motion & Print
Guide Rails
Industrial Linear Rails (XY)
Z-Axis Drive
High-Quality Ball Screws
Extruder
Direct Drive
Build Volume
500 × 500 × 500 mm
Layer Resolution
0.1 mm – 1.0 mm
Nozzle
0.4 mm std
Print Speed
60–120 mm/s
Move Speed
Up to 200 mm/s
Benchy Time
~17 minutes
Thermal
Max Hotend
300°C
Heated Bed
AC Silicon, up to 120°C
Bed Material
Aero-grade 7075 T6 Aluminium
Build Plate
PEI Sheet + Magnetic Bed
Enclosure
Fully Metal Enclosed
Operating Temp
15°C – 45°C
Electronics & Firmware
Firmware
Klipper Native
Control Board
32-bit High-Perf MCU
Display
7" HDMI Touchscreen
Connectivity
USB · Wi-Fi
File Transfer
USB · SD Card · Web-UI
Slicer
Cura · Simplify3D
Power
240V AC, 50Hz
Safety & Sensors
Bed Leveling
Auto ABL Probe
Camera
Built-in AI Monitoring
Runout Sensor
Yes + Jam Sensor
Filtration
HEPA + Activated Carbon
Accel. Sensor
Yes — Input Shaping
Failure Detection
with AI (optional)
File Types
.STL · .OBJ · .3MF
Material Compatibility
Open Filament,Limitless Materials.
Compatible with a wide range of engineering materials: PLA, ABS, ASA, PETG, TPU, Nylon, Carbon Fiber, and more.
PLA / PLA+
Polylactic Acid
180–220°C
Easy-print materials for visual prototypes, functional mockups, and general-purpose parts. Excellent detail reproduction and dimensional accuracy.
ABS / ASA
Acrylonitrile Butadiene Styrene
220–260°C
Heat-resistant engineering polymer. UV-stable ASA enables outdoor, automotive, and structural components without warping inside the enclosed chamber.
PETG
Polyethylene Terephthalate Glycol
220–250°C
Strong chemical-resistant material with excellent layer adhesion. Ideal for mechanical components and durable prototypes.
TPU
Thermoplastic Polyurethane
210–240°C
Flexible rubber-like material for seals, gaskets, wearable parts, and vibration-absorbing components. Direct drive ensures smooth extrusion.
Nylon (PA)
Polyamide
240–280°C
High-strength engineering polymer with excellent fatigue resistance. Ideal for gears, hinges, and mechanical assemblies.
Polycarbonate (PC)
High-Performance Engineering Polymer
260–300°C
Extremely strong and heat-resistant material used for structural components, industrial prototypes, and high-load functional parts.
Carbon / Glass Fiber
Composite Reinforced Filaments
260–300°C
Carbon fiber and glass fiber reinforced polymers deliver exceptional stiffness and strength-to-weight ratio for aerospace and robotics components.
Metal / Wood / Specialty
Composite & Specialty Fill Materials
190–240°C
Metal-filled, wood-filled, and ceramic composites for decorative, architectural, and specialized industrial applications.
Firmware
Klipper. Out of the box.
Powered by Klipper Firmware Experience faster processing, smoother motion, and advanced control features.
Firmware
Full Klipper arrives configured from the factory — ready from first boot, no setup required.
Input Shaping
ADXL345 accelerometer built-in. Automatically measures and eliminates resonance on both axes to remove ghosting at high speeds — critical for a large 500mm frame.
Pressure Advance
Manages filament pressure for sharp corners and clean extrusion. No blobs, ooze, or rounding — even at speed on long multi-hour prints.
Browser & Mobile Access
Control via Mainsail or Fluidd from any device on your local network. Monitor, adjust, and manage prints from anywhere — essential for long industrial print runs.
Pre-configured & Safe
All safety macros, thermal runaway protection, and calibration configured at the factory. Fully tested before every unit ships. Print from day one.
# Garuda3D Titan Pro
[printer]
kinematics: cartesian
max_velocity: 200
max_accel: 5000
max_z_velocity: 15
[input_shaper]
shaper_type_x: mzv
shaper_freq_x: 42.6
shaper_type_y: mzv
shaper_freq_y: 38.4
[extruder]
max_temp: 300
pressure_advance: 0.05
[heater_bed]
max_temp: 120
heater_pin: AC_heater
# ✓ Printing — 17 min Benchy
[printer]
kinematics: cartesian
max_velocity: 200
max_accel: 5000
max_z_velocity: 15
[input_shaper]
shaper_type_x: mzv
shaper_freq_x: 42.6
shaper_type_y: mzv
shaper_freq_y: 38.4
[extruder]
max_temp: 300
pressure_advance: 0.05
[heater_bed]
max_temp: 120
heater_pin: AC_heater
# ✓ Printing — 17 min Benchy
Industry Applications
Built for Every Professional Domain
The Titan Pro's large build volume, material versatility, and industrial-grade components make it deployable across the most demanding professional environments.
🏭
01 / 6
Industrial Prototyping & Manufacturing
High-strength functional prototypes in ABS, PETG, Nylon, and Carbon Fiber composites. Custom jigs, fixtures, and tooling aids for manufacturing processes at scale.
✈️
02 / 6
Aerospace & Automotive
Lightweight Nylon and Carbon Fiber composite parts for aerospace and automotive applications. Produce heat-resistant engine bay parts and structural components on demand.
🤖
03 / 6
Robotics & Electronics
Custom enclosures, housings, gears, and mechanical assemblies produced in engineering-grade polymers like Nylon and Polycarbonate.
🎓
04 / 6
Research & Education
Universities and research labs use Titan Pro for material science experiments, robotics development, and large engineering demonstration models.
🛡
05 / 6
Defense & Security
Durable drone components, UAV structures, and impact-resistant equipment produced with engineering polymers and fiber-reinforced composites.
🎨
06 / 6
Consumer Products & Design
Large decorative pieces, architectural models, custom furniture components, and wearable technology produced at full 500mm scale.
