3DreamFactory
Advanced Technology
Bambu Lab AMS

Multi-Material 3D Printing Europe | Advanced AMS Technology

Revolutionary multi-material 3D printing services across Europe using Bambu Lab's advanced AMS (Automatic Material System). Create complex parts with multiple materials, colors, and properties in a single print.

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Bambu Lab AMS Technology

Automatic Material System (AMS)

The Bambu Lab AMS is a revolutionary system that automatically manages up to 4 different materials or colors in a single print job. Advanced sensors and precise control enable seamless material switching without manual intervention.

Automatic material detection and loading
Precise filament switching with minimal waste
Support for different material types simultaneously
Color-coded organization system
Real-time material monitoring
Bambu Lab AMS System

Multi-Material Printing Capabilities

Multi-Color Single Material
Up to 4 colors of the same material type

Applications:

  • Colorful prototypes
  • Branded products
  • Educational models
  • Artistic creations

Material Combinations:

PLA, PETG, ABS in different colors

Soluble Support Systems
Main material + water-soluble supports

Applications:

  • Complex overhangs
  • Internal geometries
  • Moving assemblies
  • Intricate details

Material Combinations:

PLA + PVA, PETG + HIPS

Flexible + Rigid Combinations
Hard and soft materials in one print

Applications:

  • Phone cases
  • Gaskets
  • Grips
  • Shock absorbers

Material Combinations:

PLA/ABS + TPU combinations

Functional Material Mixing
Different properties in different areas

Applications:

  • Conductive traces
  • Transparent windows
  • Heat-resistant sections
  • Chemical-resistant areas

Material Combinations:

Conductive, transparent, specialty filaments

Composite Structures
Reinforced areas with different materials

Applications:

  • Reinforced joints
  • Wear-resistant surfaces
  • Lightweight cores
  • Strength gradients

Material Combinations:

Standard + carbon fiber reinforced

Multi-Density Printing
Different infill densities and materials

Applications:

  • Weight optimization
  • Cost reduction
  • Performance tuning
  • Material efficiency

Material Combinations:

Dense + lightweight material combinations

Popular Material Combinations

PLA + PVA
Beginner
Most popular combination for complex geometries

Key Benefits:

  • Easy to print
  • Water-soluble supports
  • Clean finish
  • No support marks

Best Applications:

Complex overhangs, internal channels, moving parts, intricate details

PETG + HIPS
Intermediate
Strong parts with dissolvable supports

Key Benefits:

  • Chemical resistant
  • Strong bonds
  • Limonene soluble
  • Professional finish

Best Applications:

Functional parts, mechanical assemblies, chemical containers

ABS + TPU
Advanced
Rigid structure with flexible elements

Key Benefits:

  • High strength
  • Flexible sections
  • Impact resistant
  • Temperature resistant

Best Applications:

Phone cases, automotive parts, gaskets, shock absorbers

PLA + Conductive
Intermediate
Insulating base with conductive traces

Key Benefits:

  • Electrical functionality
  • Easy printing
  • Cost effective
  • Rapid prototyping

Best Applications:

Electronic housings, sensors, touch interfaces, LED strips

PETG + Carbon Fiber
Expert
Standard areas with reinforced sections

Key Benefits:

  • Selective reinforcement
  • Weight optimization
  • High strength
  • Professional grade

Best Applications:

Aerospace parts, automotive components, tools, structural elements

Multi-Color PLA
Beginner
Same material in different colors

Key Benefits:

  • No compatibility issues
  • Vibrant colors
  • Easy post-processing
  • Cost effective

Best Applications:

Prototypes, educational models, art projects, branded items

Multi-Material Technical Specifications

AMS Capabilities
  • Material Slots:4 simultaneous
  • Switching Speed:<30 seconds
  • Waste per Switch:<1g typical
  • Material Detection:Automated