Flexible and Tough Material 4-Roll Set
Multi-Material Flexible and Tough Composite 3D Printing Solution
Seamless integration of flexible and tough materials in a single print, suitable for integrated manufacturing of complex structures
Learn About Set CompositionDownload Materials
Set Composition Description
Choose the right set for you to easily achieve rigid-flexible composite printing
Versatile A
Versatile A / Bundle-1KG*4
Material Combination
PLA+ & TPU-95A
Diameter
1.75mm
Color Combination
TPU-95A: CLEAR
PLA+: Black / Cool White / Fire Engine Red
Specification
1KG × 4
Versatile B
Versatile B / Bundle-1KG*4
Material Combination
PETG & TPU-95A
Diameter
1.75mm
Color Combination
TPU-95A: CLEAR
PETG: Black / White / Red
Specification
1KG × 4
What is “Flexible and Tough Composite Printing”
Multi-material combination adopts advanced flexible and tough composite 3D printing technology, through precise interlayer bonding process, seamlessly integrating tough materials (PLA+ / PETG) with flexible materials (TPU-95A) in a single printing process to form composite structure products with both structural strength and elastic performance.
Detailed printing tutorials and design instructions can be downloaded at the bottom of the page.
Core Selling Points
1 + 1 > 2 Material Performance Combination
- Rigid materials provide dimensional stability
- Flexible materials provide elasticity and cushioning capacity
Integrated Molding of Complex Structures
- Can achieve rigid-flexible composite structures that are difficult to complete with traditional manufacturing
- Reduce assembly steps and improve structural reliability
Typical Application Scenarios
Industrial Manufacturing
- Custom fixtures and jigs (rigid frame + flexible contact surface)
- Shock-absorbing brackets and fixing seats
- Sealing and cushioning components for pipes and equipment interfaces
Consumer Products
- Wearable devices (watch straps, helmet padding)
- Sports equipment (bicycle handles, fitness equipment grips)
- Electronic accessories (phone cases, headphone headbands)
Medical and Rehabilitation
- Orthotics and prosthetics (support structure + flexible contact surface)
- Rehabilitation training equipment
- Medical tool trays (rigid body + flexible sealing edge)
Robotics Technology
- Soft robot grippers
- Robot joint buffer structures
- Sensor housings and mounting bases
Printing Model Examples
PLA+ & TPU-95A Printing Model
PETG & TPU-95A Printing Model
Recommended Printing Equipment
Multi-material joint printing equipment support
Bambu Lab H2D
Prusa XL 5T / 2T
Snapmaker U1 (Not tested yet)
Multi-Material Printing Notes
Printing Parameter Analysis (Term Explanation)
Interlock Beam Width
Interlock line width
Interlock Direction
Interlock line crossing angle
Interlock Beam Layers
Single interlock line height
Interlock Depth
Interlock crossing area depth
Boundary Margin
Whether interlock lines are displayed on the outer surface
Recommended Printing Process Parameters
Interlock Parameter Comparison
| Parameter Name | PLA+ & TPU | PETG & TPU |
|---|---|---|
| Interlock Beam Width | 1.2 | 1.6 |
| Interlock Direction | 30 | 30 |
| Interlock Beam Layers | 3 | 2 |
| Interlock Depth | 5 | 5 |
| Boundary Margin | 0 | 0 |
| Typical Fracture Strength (X-Y) | 6.6 MPa | 8.6 MPa |
Printing Notes (Key Tips)
Please design the interlock interface in the X-Y direction, as Z-direction interlock strength is weaker
The interlock interface width should not be too low, otherwise slicing cannot generate the interlock structure
Parameters and Materials Download Area
PLA+
PLA+ TDSPLA+ MSDSPLA+ REACHPLA+ ROHS
TPU-95A
TPU-95A TDSTPU-95A MSDSTPU-95A REACHTPU-95A ROHS