BF 2.0

It is a Polyamid 12-based composite material containing glass beads (BF 2.0). It is a material with excellent characteristics of rigidity and traction resistance, with high thermal properties. It is ideal for functional and aesthetic applications. it is suitable for: 

  • Components for automotive: ducts, conveyors, bodywork parts; 
  • Prototypes for dimensional and assembly tests; 
  • Prototypes that require high operating temperatures (up to 130°C continuously). 

FF 1.0

SCP formulation material is a mixture of nylon 12. The material is suitable for applications that require perfectly functional prototypes, especially for assembly tests, thanks to the excellent flexibility, even with minimal thicknesses.
it is suitable for: 

  • Automotive components; 
  • Prototypes for assembly tests (interlocks, fastenings, etc.); 
  • Prototypes for dimensional tests; 
  • Waterproof prototypes. 

TPU 92A-1

Thermoplastic Polyurethane is a rubber-like material and has excellent characteristics of flexibility and resistance combined with numerous other qualities: excellent elasticity, high resistance to tearing and to dynamic roads and a good thermal range (from -20°C to 80°C). It is ideal for functional and aesthetic applications.
it is suitable for: 

  • Rubber-like prototypes; 
  • Prototypes for dimensional tests; 
  • Prototypes for wind tunnel tests; 
  • Liquid passage ducts. 


PA (polyamide) containing Carbon fibres. A material with excellent rigidity, mechanical resistance and durability. It is used to create mechanically superior and at the same time light and functional products.
Ideal for function prototypes and for final use parts that require reinforcement, rigidity and resistance.
it is suitable for: 

  • Prototypes for wind tunnel tests; 
  • Ideal for components subjected to high mechanical stresses; 
  • Prototypes with excellent resistance to liquids and oils. 


PA (polyamide) containing Carbon fibres. Characteristics similar to the previous HF but with a greater breakage lengthening resistance and a higher melting temperature (192°C vs. 181°C).
it is suitable for: 

  • Prototypes for the Motorsport and Aerospace sector; 
  • Prototypes that require high operating temperatures; 
  • Prototypes suitable for bench tests. 

Supplying of materials for SLS