Polymaker filaments are high-quality 3D printing materials known for their exceptional performance and consistency. By integrating their high-performance filaments into our products, we empower you to create stronger, more precise, and visually stunning prints. We chose Polymaker so you can push the boundaries of what’s possible. When you choose PROJET, you’re choosing a standard of excellence you can trust.
Why we partnership with polymaker
Polymaker offers a wide range of standard and engineering-grade filaments, including high-performance materials like polycarbonate (PC), nylon (PA), and carbon fiber reinforced composites (Fiberon™). They constantly develop new blends, such as PC-PBT for chemical resistance and low-temperature toughness, to suit specific industrial applications. This partnership means every product we offer is backed by a commitment to exceptional performance.
Why Polymaker
It's the uncompromising quality we build into everything we make, and that starts with the materials we choose. We exclusively use Polymaker filaments to give you a competitive edge. Experience superior strength, flawless consistency, and the reliability you need to outperform the rest. We chose Polymaker so you can push the boundaries of what's possible.
Simplify Creation
We are committed to simplifying the creation process for everyone. Our mission is to make 3D printing more accessible, user-friendly, and efficient by offering high-quality materials and hardware. We strive to develop innovative technologies that push the boundaries of 3D printing and enable users to bring their ideas to life with ease. Through our products, technical support, and educational resources, we aim to empower creators around the world to achieve their goals and unleash their creativity.
Sustainability
We believe that Polymaker, a leader in 3D printing innovation is the best use of plastics in today’s society. Our vision is a future where additive plays a large part in the creation of consumer goods, localizing manufacturing and cutting transportation emissions. Our connectivity has the power to digitally spread files around the world, allowing one 3D printer to create an endless opportunity of ideas.
Product portfolio
Over 100 Countries Individuals, Businesses and Organizations Trust Polymaker material extrusion based 3D Printing Material
At Polymaker, we are dedicated to challenging the status quo and expanding the boundaries of what’s possible with FFF 3D printing. With Fiberon, we bring high-performance, user-friendly materials directly to your desktop, empowering you to achieve the extraordinary and conquer the impossible.
Prototyping
3D printing is a highly effective tool for prototyping and modeling, allowing teams to quickly turn digital designs into physical objects. This accelerates iteration, improves design validation, and shortens development cycles.
Additive manufacturing enables the rapid and cost-effective production of jigs and fixtures without compromising quality or performance. It also minimizes inventory requirements, eliminates the need for molds, and supports on-demand manufacturing.
Advancements in materials, technology, and printing processes have made additive manufacturing a viable option for producing end-use parts. These parts can be manufactured with precision and durability, ready for immediate application in real-world environments.
Additive manufacturing can streamline the creation of specialized tooling by reducing lead times, lowering costs, and enabling more complex geometries that are difficult or impossible to achieve with traditional methods.
PMMA Like clear resin has high transparency and anti-yellowing, suitable for high transparency applications in non-high temperature environments. The transparent resin has imitation acrylic, glass appearance.
This grey-blue composite nylon powder, enhanced with 40% glass beads, creates 3D-printed parts with exceptional stiffness and heat resistance. Powder reuse rate can reach up to 100%.
Suitable for: SLS
Application
Prototype
End-User part
Application Fields
Aerospace: YES
Automotive: YES
Industrial Machinery: YES
Consumer Electronics: YES
Automation: YES
Medical: YES
Education Community: YES
Material Property
Density(g/cm3): 0.72
Tensile Strength(MPa): 46
Flex Modulus(MPa): 2,800
Elongation(%): –
Heat Distortion Temp(°C): 160
Hardness Shore D: –
Nylon 12 Glass Fibre 30
PA12GB30 is a high-performance material with excellent chemical, mechanical, and thermal properties, ideal for engineering applications. Compared to PA6, it absorbs significantly less moisture, preserving strength and shape in humid environments. With added glass fiber reinforcement, it offers enhanced durability, stiffness, and stability, making it a reliable choice for demanding conditions.
ABS-like resin excels in high precision, providing a smooth surface quality with exquisite detail features. Known for its superior forming dimensional stability, this resin is ideal for the assembly and testing of various engineering models. Achieving a perfect balance between tensile strength and hardness, it prevents brittleness with its high elongation at break, ensuring resistance to breaking.
Nylon-like resin is a high-strength material known for its excellent durability and long-term stability. It also boasts exceptional toughness and impact resistance.
This hard resin boasts higher toughness and impact resistance compared to standard ABS-like resin, making it exceptionally well-suited for mechanical prototypes.
High Temp Resin is characterized by high hardness, strength, modulus, and precision. It exhibits resistance to prolonged heating at 120°C or boiling at 100°C, showcasing excellent mechanical properties, weather resistance, and temperature resistance.
PEI is a high-performance industrial-grade thermoplastic known for its strength, durability, and low flammability. This versatile material finds applications in various industries, including automotive, aerospace, medicine, and dentistry.
PEI is a high-performance industrial-grade thermoplastic known for its strength, durability, and low flammability. This versatile material finds applications in various industries, including automotive, aerospace, medicine, and dentistry.
PEEK (polyetheretherketone) is a high-performance semi-crystalline industrial thermoplastic known for its exceptional resistance to harsh chemicals, minimal moisture absorption, excellent fire performance, superior mechanical strength over a wide temperature range, and reliable dimensional stability.
PET-CF emerges as a superior choice over nylon for printing functional parts in high-humidity environments. Its high-temperature resistance and minimal warping make it ideal for crafting mechanical assembly parts, including automotive accessories and fixtures. In comparison to PETG-CF, PET-CF contains a higher concentration of carbon fibre, resulting in significantly greater strength and high temperature resistance.
PAHT-CF (High temperature polyamide carbon fiber reinforced)
A composite of PA and carbon fibre, merges the low water absorption advantage of PA with the high-performance attributes of carbon fibre. This combination yields excellent mechanical and thermal properties that remain robust even in wet conditions. PA+CF is prized for its outstanding chemical resistance, low moisture absorption, and versatile processing capabilities.
Carbon fibber reinforced PLA, stands out for its remarkable increase in stiffness and strength. This cutting-edge bio-polymer, when combined with recycled carbon fibber reinforcement, results in a higher mechanical properties
It possesses higher mechanical properties and is halogen-free, environmentally friendly, and flame retardant, achieving a UL94V-0 level flame retardancy. This makes the product more fireproof and safer.
ASA shares excellent mechanical properties with ABS but offers additional benefits. It is more resistant to ultraviolet rays and harsh weather conditions, making it particularly suitable for outdoor use. ASA boasts strong toughness, rigidity, and high impact resistance.
Polypropylene (PP) is a popular material in 3D printing, valued for its versatility, strength, and chemical resistance. This lightweight and flexible plastic stands up well to acids, bases, and organic solvents, making it suitable for a range of applications. Additionally, PP is considered food-safe, though standard 3D printing food safety guidelines should still be followed.
PC is a high-performance material known for its toughness, heat resistance, dimensional stability, and high optical clarity. It exhibits excellent mechanical properties, high toughness, and impact resistance, making it stable and durable. Additionally, PC offers impressive temperature resistance, with a heat distortion temperature up to 80 ℃.
Nylon is a versatile material known for its good flexibility, wear resistance, and high strength-to-weight ratio. PA12, in particular, exhibits high toughness and impact resistance.
HIPS is a multifunctional material. It shares many mechanical properties with ABS plastic, but as the name suggests, it has a much higher resistance to impact. This added strength makes HIPS an excellent choice for creating durable 3D-printed parts that can withstand everyday wear and tear.
PETG is a robust material known for its odor neutrality and ease of printing. These characteristics, combined with high impact strength, flexibility, low shrinkage, water resistance, chemical resistance, and high toughness, make PETG an excellent choice for a variety of applications.
ABS is a lightweight material known for its high impact resistance. These characteristics, coupled with a high heat deflection temperature, render ABS suitable for a wide range of applications and environments.
