ASA

ASA

Stratasys
ASA filament (acrylonitrile styrene acrylate) is the perfect all-purpose 3D printing thermoplastic, suitable for many different applications. It has a similar chemical makeup to ABS plastic but offers three improvements: better mechanical properties, superior aesthetics and it’s UV resistant. ASA material also comes in 10 colors, more than any other FDM material.

Est. Lead Time

2-5 Days

Build Size

355 × 305 × 305 mm (13.98 × 12.01 × 12.01 in)

Layer Height

100 Microns

Tolerance

± 0.127 mm / ±0.005in

Colors Available

  • Black
  • Blue Blue
  • Grey
  • Ivory
  • Red
  • White

Gallery

Post Processing

Advantages

Drawbacks

Common Applications

Fused Deposition Modeling (FDM)

Fused Deposition Modeling (FDM), also known as Fused Filament Fabrication (FFF), represents a groundbreaking 3D printing technology that has significantly democratized the creation of complex, custom parts for a myriad of applications ranging from prototype development to final product manufacturing. This comprehensive exploration of FDM 3D printing will delve into its operational principles, advantages, material selections, applications, limitations, and future prospects.

Operational Principles of FDM 3D Printing

FDM technology works by extruding thermoplastic filaments through a heated nozzle, laying down material layer by layer to construct a 3D object. The printer’s extrusion head, guided by computer-aided design (CAD) data, moves along specified paths to deposit the material, which immediately cools and solidifies to form a solid structure. This process is repeated, layer upon layer, until the object is fully formed. The simplicity and efficiency of this mechanism make FDM one of the most widely used 3D printing technologies.

Advantages of FDM 3D Printing

FDM offers several compelling advantages that contribute to its popularity: Accessibility: FDM printers are available in various sizes and price ranges, making them accessible to hobbyists, educational institutions, and industries alike.

  • Material Versatility: FDM can process a wide range of thermoplastic materials, including ABS, PLA, PETG, TPU, and specialized filaments with additives for enhanced properties like increased strength, temperature resistance, or electrical conductivity.
  • Ease of Use: FDM printers are relatively straightforward to operate, with many models designed for plug-and-play use, making them an excellent entry point for beginners to 3D printing.
  • Customization and Rapid Prototyping: The technology allows for quick design modifications and is ideal for rapid prototyping, enabling designers and engineers to iterate quickly through design cycles.

Material Selection in FDM 3D Printing

Choosing the right material is crucial for successful FDM printing, as each material offers unique characteristics that impact the object’s mechanical properties, appearance, and functionality. ABS is known for its toughness and heat resistance, making it suitable for functional parts. PLA is biodegradable, available in various colors, and is popular for its ease of printing and low warping. PETG combines the ease of printing found in PLA with the strength and durability of ABS. Specialized materials, such as conductive filaments or wood-filled composites, expand the creative and functional possibilities of FDM printing.

Applications of FDM 3D Printing

FDM’s versatility makes it applicable across various domains:

  • Prototyping and Design: FDM is extensively used for prototyping due to its speed and cost-effectiveness. Designers can rapidly prototype parts, test fits, and functionality, and make iterative changes without the need for expensive tooling. Manufacturing and Tooling: FDM is employed in manufacturing for producing custom jigs, fixtures, and tooling, significantly reducing lead times and costs.
  • Custom and Low-Volume Production: The technology allows for the economical production of custom parts or low-volume runs, bypassing the traditional economies of scale associated with mass production.
  • Education and Research: In educational settings, FDM facilitates hands-on learning, enabling students to bring their designs to life and experiment with 3D modeling and manufacturing concepts.

Limitations of FDM 3D Printing

Despite its many advantages, FDM printing is not without its limitations: Surface Finish and Resolution: FDM parts may exhibit layer lines and require post-processing for a smooth finish. The technology is also limited by the nozzle size, affecting the resolution of fine details. Material Properties: While FDM materials are versatile, they may not match the strength or thermal resistance of materials used in traditional manufacturing methods. Support Structures: Overhangs and complex geometries may require support structures that need to be removed post-printing, potentially leaving marks or requiring further finishing.

Min Supported Wall Thickness

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Min Unsupported Wall Thickness

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Min Supported Wires

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Min Unsupported Wires

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Min Embossed Detail

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Min Engraved Detail

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Min Clearance

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Min Escape Holes

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Require Support Material?

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No