Nylon (PA)

Nylon (PA)

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  • Nylon PA6 - Glass Fiber - 1.75mm 3D Printer Filament

    Nylon PA6 - Glass Fiber - 1.75mm 3D Printer Filament

    SPOOL3D

    $49.00 - $79.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) 1.75mm Glass Fiber Nylon PA6 3D Printer Filament Material from Spool3D. Technical data can be found in the details tab. Print it right with Spool3D nylon 3D printer filament...
    $49.00 - $79.00
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  • Nylon PA6 - 1.75mm 3D Printer Filament

    *Nylon PA6 - 1.75mm 3D Printer Filament

    SPOOL3D

    $49.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) Print it right with Spool3D nylon 3D printer filament.  Our nylon filament is manufactured with tight tolerances from premium grade material.  Our filament has been...
    $49.00
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    $49.00
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  • Nylon12 ( PA12) - 1.75mm 3D Printer Filament

    *Nylon12 ( PA12) - 1.75mm 3D Printer Filament

    SPOOL3D

    $8.00 - $199.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) We use Evonik Industries (Germany) industrial grade nylon 12. Print it right with Spool3D nylon 3D printer filament.  Our nylon filament is manufactured with tight...
    $8.00 - $199.00
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  • 1.75mm 3D Printer Cleaning Filament - 3D Printing Filament

    1.75mm 3D Printer Cleaning Filament

    SPOOL3D

    $9.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) Recommended for use between printing different filament types or after printing filled filament types.  Easily clean up residues left behind in the nozzle. This...
    $9.00
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    $9.00
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  • Nylon PA6 - Carbon Fiber - 1.75mm 3D Printer Filament

    Nylon PA6 - Carbon Fiber - 1.75mm 3D Printer Filament

    SPOOL3D

    $39.00 - $89.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) Print it right with Spool3D nylon 3D printer filament.  Our nylon filament is manufactured with tight tolerances from premium grade material.  Our filament has been...
    $39.00 - $89.00
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  • Nylon12 (PA12) - Carbon Fiber - 1.75mm 3D Printer Filament

    Nylon12 (PA12) - Carbon Fiber - 1.75mm 3D Printer Filament

    SPOOL3D

    $12.00 - $249.00
    Free shipping in Canada for orders over $140 before tax. (via Canada Post) We use Evonik Industries (Germany) industrial grade nylon 12. Print it right with Spool3D nylon 3D printer filament.  Our nylon filament is manufactured with tight...
    $12.00 - $249.00
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    $12.00 - $249.00
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Nylon 1.75mm 3D Printer Filament

  • Characteristics: Strong, durable, and flexible with good chemical resistance. It can absorb moisture, which can affect print quality.
  • Applications: Ideal for functional parts requiring high strength and durability, such as gears or mechanical components.

Nylon is a highly versatile and durable 3D printing filament known for its exceptional mechanical properties and resistance to wear and tear. It’s used in a wide range of applications due to its strength, flexibility, and durability. Here’s a comprehensive overview of Nylon filament:

Characteristics

  • Strength and Durability: Nylon is renowned for its high tensile strength and toughness. It is resistant to impacts and can withstand significant mechanical stress, making it ideal for functional parts and components that need to endure heavy use.
  • Flexibility: Nylon has a certain degree of flexibility and can be bent and stretched without breaking. This property makes it suitable for parts that need to absorb shocks or flex during use.
  • Wear Resistance: Nylon exhibits excellent abrasion resistance, making it suitable for parts subject to friction or repeated use, such as gears, bearings, and moving components.
  • Chemical Resistance: Nylon is resistant to a range of chemicals, including oils and fuels. This makes it useful for applications involving exposure to harsh substances or environments.
  • Moisture Absorption: One of the notable characteristics of Nylon is its tendency to absorb moisture from the air. This can affect its printing performance and mechanical properties, leading to issues such as warping or dimensional changes.

Applications

  • Functional Parts: Due to its strength and durability, Nylon is used to produce functional parts such as gears, hinges, and mechanical components that require resilience and reliability.
  • Prototyping: Nylon is often used for prototyping parts that need to simulate the final product’s mechanical properties. It allows designers to test functionality and performance under real-world conditions.
  • Industrial Components: In addition to consumer applications, Nylon is used in industrial settings for producing parts like bushings, conveyor belts, and other components that need to handle stress and wear.
  • Consumer Goods: Items such as durable tools, custom fittings, and wear-resistant parts can be made from Nylon, benefiting from its combination of strength and flexibility.

Printing Considerations

  • Print Temperature: Nylon typically prints at temperatures between 240-270°C. The specific temperature can vary depending on the filament’s brand and formulation.
  • Bed Temperature: A heated bed is recommended for Nylon printing, usually set between 70-100°C. This helps with adhesion and reduces the risk of warping.
  • Enclosure: Printing Nylon in an enclosed or temperature-controlled environment can help prevent warping and improve print quality. Nylon’s tendency to warp due to temperature changes makes an enclosure particularly beneficial.
  • Cooling: Minimal cooling is generally recommended for Nylon to avoid issues with layer bonding. Excessive cooling can lead to poor layer adhesion and warping.
  • Adhesion: Nylon can be challenging to adhere to some print surfaces. Using adhesion aids such as glue stick, a special adhesive, or a textured print bed can help improve adhesion and reduce warping.

Storage and Maintenance

  • Moisture Sensitivity: Nylon is highly sensitive to moisture and should be stored in a dry, airtight container with desiccant packs. Moisture absorption can lead to issues such as poor print quality, stringing, and dimensional changes.
  • Shelf Life: When stored properly, Nylon filament has a good shelf life. However, it should be kept away from humid environments to maintain its performance.

Environmental Impact

  • Recyclability: Nylon is recyclable, but like many thermoplastics, it is not biodegradable. Proper recycling and disposal according to local regulations are important to minimize environmental impact.

Nylon filament offers a unique combination of strength, flexibility, and durability, making it an excellent choice for a wide range of demanding 3D printing applications. Its properties make it suitable for functional parts, industrial components, and prototypes, but its sensitivity to moisture requires careful storage and handling to ensure optimal printing results.

PA6 vs. PA12 3D Printer Filament: Key Differences

PA6 (Polyamide 6) and PA12 (Polyamide 12) are both types of Nylon filaments used in 3D printing, each with distinct properties and applications. Here’s a comparison of their key differences:

1. Chemical Structure and Properties

  • PA6 (Polyamide 6)
    • Structure: PA6 is a semi-crystalline polymer with a backbone of caprolactam units. It is known for its good strength, durability, and resistance to wear.
    • Strength: PA6 offers high tensile strength and impact resistance. It is durable but tends to be more rigid compared to PA12.
    • Moisture Absorption: PA6 has a higher moisture absorption rate, which can lead to dimensional changes and affect mechanical properties. This moisture absorption can also cause issues like warping and reduced print quality if not managed properly.
    • Chemical Resistance: PA6 has good chemical resistance but can be more susceptible to degradation from certain chemicals and moisture compared to PA12.
  • PA12 (Polyamide 12)
    • Structure: PA12 is also a semi-crystalline polymer but is made from lauryl lactam. It tends to be more stable and less prone to moisture absorption compared to PA6.
    • Strength: PA12 has excellent strength and impact resistance but is generally more flexible and less rigid than PA6. This makes it suitable for applications requiring a balance of strength and flexibility.
    • Moisture Absorption: PA12 has a lower moisture absorption rate, which results in more stable dimensional properties and less risk of warping during printing.
    • Chemical Resistance: PA12 offers superior chemical resistance compared to PA6. It is less likely to degrade when exposed to chemicals and moisture, making it ideal for harsh environments.

2. Printing Characteristics

  • PA6
    • Print Temperature: PA6 typically requires higher print temperatures, usually between 240-270°C. The exact temperature can vary depending on the specific formulation and brand.
    • Bed Temperature: A heated bed is essential for PA6 printing, often set between 80-100°C, to prevent warping and improve adhesion.
    • Enclosure: Printing PA6 often benefits from an enclosed or temperature-controlled environment to manage warping and shrinkage effectively.
  • PA12
    • Print Temperature: PA12 generally prints at slightly lower temperatures than PA6, between 220-250°C. It is more forgiving with temperature variations compared to PA6.
    • Bed Temperature: A heated bed is also recommended for PA12, typically set between 70-90°C. PA12’s lower moisture absorption helps reduce the risk of warping compared to PA6.
    • Enclosure: PA12 benefits from an enclosed printing environment, but it is less prone to warping compared to PA6, making it somewhat easier to handle.

3. Applications

  • PA6
    • Functional Parts: PA6 is used for parts requiring high strength and durability, such as gears, bearings, and structural components. Its higher rigidity makes it suitable for applications where stiffness is important.
    • Prototyping: PA6 is used in prototyping for parts that need to withstand significant mechanical stress and wear.
  • PA12
    • Functional Parts: PA12 is ideal for functional parts that require a balance of strength and flexibility, such as complex, flexible components and parts exposed to chemicals or moisture.
    • Automotive and Industrial: PA12’s superior chemical resistance makes it suitable for automotive parts, industrial components, and parts exposed to harsh environments.

4. Cost and Availability

  • PA6 tends to be less expensive than PA12 and is more widely available. Its lower cost makes it a popular choice for applications where cost is a significant factor.
  • PA12 is generally more expensive but offers enhanced performance characteristics, such as lower moisture absorption and better chemical resistance. Its higher cost is often justified by its superior properties in demanding applications.

Summary

In summary, PA6 and PA12 filaments each have unique properties suited to different applications. PA6 is known for its high strength and durability but is more susceptible to moisture absorption and warping. PA12 offers a better balance of strength, flexibility, and chemical resistance with lower moisture absorption, making it suitable for more demanding applications. The choice between PA6 and PA12 will depend on the specific requirements of the project, including mechanical properties, environmental exposure, and budget considerations.