Formlabs Formlabs Polypropylene Powder (5kg)
Formlabs Polypropylene Powder is a durable, chemically resistant 3D printing material designed for both prototyping and production. It offers lightweight, watertight parts with high ductility, similar to injection-molded polypropylene. Compatible with the Fuse 1+ printer, it enables a simplified manufacturing process without the need for inert atmospheric control, making it perfect for complex geometries and intricate designs. Ideal for various industries seeking robust and versatile components.
- Genuine polypropylene for durable, lightweight parts.
- Exceptional chemical resistance, ideal for demanding environments.
- Simplifies workflow, no inert atmospheric control needed.
List Price: | $469.00 |
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Price: | $469.00 |
Price: | $... |
Order Now: | Processed Immediately Free U.S. Shipping |
Formlabs Polypropylene Powder
Durable Prototyping and Production Solution
Experience the versatility of Formlabs Polypropylene Powder, a revolutionary material for 3D printing that delivers robust prototypes and end-use parts with unparalleled durability and chemical resistance. Utilizing genuine polypropylene, this powder ensures seamless transition from prototyping to mass production, offering lightweight, watertight, and chemically resistant components ideal for various industries. Compatible with the Fuse 1+ printer, Polypropylene Powder simplifies the manufacturing process, providing high ductility without the need for inert atmospheric control.
Key Features of the Formlabs Polypropylene Powder:
- Genuine polypropylene construction for authentic prototyping and production.
- Lightweight yet durable parts with high ductility, mimicking injection molded polypropylenes.
- Exceptional chemical resistance, suitable for demanding environments and various liquids.
- Simplified workflow without the requirement for inert atmospheric control.
- Ideal for complex geometries and intricate features, such as snap fits and threads.
Seamless Production with Polypropylene Powder
Unlock the potential of Polypropylene Powder for streamlined production processes, enabling the creation of ductile and durable parts effortlessly in-house using SLS 3D printing with the Fuse 1+ 30W. With genuine polypropylene, accelerate time to market and reduce costs by seamlessly transitioning from prototyping to mass production of injection molded polypropylene components. Benefit from lightweight, high ductility parts that offer mechanical properties akin to injection molded polypropylenes, ensuring durability in demanding environments, and enjoy easy fabrication of dimensionally accurate parts without the need for inert atmospheric control.
- Seamlessly transition from prototyping to mass production with genuine polypropylene.
- Create lightweight, durable parts suitable for demanding environments.
- Enjoy easy fabrication without the need for inert atmospheric control.
Versatile Applications of Polypropylene Powder
Explore the wide-ranging applications of Polypropylene Powder, leveraging its genuine properties for works-like prototypes and high-performance, lightweight end-use parts. From packaging prototypes to automotive interior components and orthotics, benefit from strong and chemically resistant fixtures, tools, and jigs, ideal for various industries and applications. Ensure to validate the suitability of printed parts for intended use, as material properties may vary based on part design and manufacturing practices.
- Polypropylene Powder is versatile, suitable for packaging prototypes, automotive interiors, and orthotics.
- It provides strength and chemical resistance, making it ideal for fixtures, tools, and jigs.
- Manufacturers should validate the suitability of printed parts for specific applications due to potential material property variations.
Post-Processing Recommendations
For optimal results, post-processing with the Fuse Sift powder recovery station and a media blasting station is recommended for parts printed with Polypropylene Powder. This combination ensures thorough cleaning and finishing, enhancing the overall quality of the printed parts and preparing them for various applications.