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Bambu Lab PPS-CF
Bambu Lab PPS-CF €124,30 Excl. VAT

Bambu Lab PPS-CF

2-4 Weeks, on request
SKU: T02-K0-1.75-750-spl
Location Code: GAS5P3R2
Information

Bambu PPS-CF

For X1E Printing Only

PPS-CF is a composite material made from carbon fiber-reinforced polyphenylene sulfide. The combination of PPS resin and carbon fiber gives PPS-CF exceptional properties, including excellent resistance to solvents, corrosion, heat, and flames. Additionally, it offers superior strength, stiffness, and dimensional stability, making it a specialized engineering plastic that meets the demands of unique and challenging applications.

Bambu PPS-CF

  • Ultra-High Heat Resistance
  • Top-Tier Flame Retardant Properties
  • Peerless Mechanical Properties
  • Solvent and Chemical Resistance
  • Ultra-Low Water Absorption

Ultra-High Heat Resistance

PPS-CF boasts a heat deflection temperature of up to 264°C under 0.45 MPa and can continuously operate at temperatures exceeding 200°C. This significantly outperforms normal PA-CF materials, which have maximum temperatures around 190°C and 120°C. Its exceptional heat resistance ensures outstanding creep resistance, making PPS-CF ideal for demanding industrial environments and applications.

Filament Type PLA Basic ABS PC Normal
PA-CF
PA6-CF PET-CF PPA-CF PPS-CF
Heat Deflection Temperature / ℃ (0.45 MPa) 57 ℃ 87 ℃ 117 ℃ 184 ℃ 186 ℃ 205 ℃ 227 ℃ 264 ℃

Superior Flame Retardancy

PPS-CF achieves a UL-94 V-0 flame retardant rating, offering superior safety and reliability in critical areas such as electronics and automotive components. PPS-CF provides long-lasting durability and peace of mind even in the most demanding environments.

Unmatched Mechanical Properties

Combining the stiffness of PPS polymers with the reinforcing power of carbon fiber, PPS-CF offers exceptional stiffness, bending strength, and tensile strength. Its superior dimensional stability and resistance to warping ensure that large-scale prints maintain precision and avoid deformation during the printing process, making it perfect for high-precision applications.

  PET-CF PPS-CF Improved %
Stiffness (Bending Modulus - XY, Dry State) 5320 MPa 7160 MPa 34.59%
Strength (Bending Strength - XY, Dry State) 131 MPa 142 MPa 8.40%

Solvent and Chemical Resistance

PPS-CF offers outstanding solvent and chemical resistance, second only to PTFE (Teflon). It remains virtually insoluble in any solvent below 200°C and exhibits exceptional resistance to acids, bases, and salts under normal conditions. This makes PPS-CF the ideal choice for challenging environments where chemical stability is critical.

Ultra-Low Water Absorption

With an extremely low moisture absorption rate of just 0.05%, PPS-CF ensures that its mechanical and thermal properties remain stable even in humid conditions. Unlike normal PA-CF, which can soften and degrade when exposed to moisture, PPS-CF maintains its strength and durability, making it the superior option for applications requiring high moisture resistance.

 

Parameters Comparison

  PPS-CF PET-CF PA6-CF
Composition Polyphenylene sulfide (PPS),
Carbon Fiber
Polyethylene terephthalate (PET),
Carbon Fiber
Nylon6 (PA6),
Carbon Fiber
AMS & AMS lite Compatibility Not Compatible Not Compatible Not Compatible
Dry before Use Required Required Required
Sealed during Printing Sealed with desiccant Sealed with desiccant Sealed with desiccant
Printer Type Enclosed Enclosed (Recommended) / Open-frame Enclosed
Nozzle Hardened Steel 0.6 mm (recommended)
/ 0.4 mm / 0.8 mm
Hardened Steel 0.6 mm (recommended)
/ 0.4 mm / 0.8 mm
Hardened Steel 0.6 mm (recommended)
/ 0.4 mm / 0.8 mm
Nozzle Temperature 310 - 340 ℃ 260 - 300 ℃ 260 - 300 ℃
Bed Temperature 100 - 120 ℃ 80 - 110 ℃ 100 - 110 ℃
Toughness (Impact Strength - XY, Dry State) 27.8 kJ/m² 36.0 kJ/m² 40.3 kJ/m²
Toughness (Impact Strength - XY, Wet State) 27.8 kJ/m² 37.3 kJ/m² 57.2 kJ/m²
Strength (Bending Strength - XY, Dry State) 142 MPa 131 MPa 151 MPa
Strength (Bending Strength - XY, Wet State) 142 MPa 127 MPa 95 MPa
Layer Strength (Bending Strength - Z, Dry State) 36 MPa 49 MPa 80 MPa
Layer Strength (Bending Strength - Z, Wet State) 36 MPa 46 MPa 45 MPa
Stiffness (Bending Modulus - XY, Dry State) 7160 MPa 5320 MPa 5460 MPa
Stiffness (Bending Modulus - XY, Wet State) 7160 MPa 5240 MPa 3560 MPa
Layer Adhesion (Impact Strength - Z, Dry State) 2.8 kJ/m² 4.5 kJ/m² 15.5 kJ/m²
Heat Resistance (HDT, 0.45 MPa, Dry State) 264 ℃ 205 ℃ 186 ℃
Saturated Water Absorption Rate (25 °C, 55% RH) 0.05% 0.37% 2.35%

 

Accessory Compatibility

  Recommended Not Recommended
Build Plate Smooth PEI Plate / Textured PEI Plate Cool Plate
Hotend Hardened Steel 0.4mm / 0.6mm (recommended) / 0.8 mm Hotend with Stainless Steel Nozzle (all size)
Hotend with Hardened Steel Nozzle (0.2 mm)
Glue Bambu Glue Stick Bambu Liquid Glue
AMS & AMS lite / AMS & AMS lite

 

Recommended Printing Settings

Drying Settings before Printing 100 - 140 °C, 8 - 12 h
Printing and Keeping Container's Humidity < 20% RH (Sealed, with Desiccant)
Nozzle Temperature 310 - 340 °C
Bed Temperature (with Glue) 100 - 120 °C
Printing Speed < 100 mm/s
 

Physical Properties

Density 1.26 g/cm³
Vicat Softening Temperature 268 °C
Heat Deflection Temperature 264 °C
Melting Temperature 284 °C
Melt Index 11.48 ± 1.23 g/10 min
 

Mechanical Properties

Tensile Strength 87 ± 5 MPa
Breaking Elongation Rate 1.2 ± 0.4 %
Bending Modulus 7160 ± 280 MPa
Bending Strength 142 ± 5 MPa
Impact Strength 27.8 ± 2.3 kJ/m²
 
 

Downloads

Filament TDS

Filament MSDS

Filament RoHS

Printing Tips

 

Bambu PPS-CF Printing Guidelines:

  • Nozzle Temperature: Recommended range is 310 to 340°C.
  • Chamber Temperature: Recommended range is 60 to 90°C.
  • Tip: Using higher values within these ranges can enhance the mechanical properties of the printed parts, especially in the Z-direction.

 

Drying Recommendations:

  • Drying Temperature:
    In a blast drying oven: 100°C to 140°C for 8 to 12 hours.
    On an X1 printer's heatbed: 110°C to 120°C for 10 to 12 hours (less effective than a blast drying oven).
  • Important Note:
    Higher temperatures within the drying range yield better results, but do not exceed 160°C to avoid damaging the spool.
  • Additional Information:
    For more details, refer to Printing tips for Engineering materials on WIKI.

 

Storage Tips:

 

Annealing Prints:

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