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Polymer Additive

Nylon 6

Nylon 6 is a durable and versatile engineering thermoplastic used in FDM (Fused Deposition Modeling) 3D printing.

Material Overview

Known for its exceptional mechanical strength, toughness, and resistance to wear, Nylon 6 is a preferred material for applications requiring long-lasting, high-performance parts. Its flexibility and resilience make it suitable for industrial, automotive, and consumer products where impact resistance and durability are critical.

Key Features:

  • High Strength and Durability: Nylon 6 offers superior tensile strength and toughness, making it ideal for parts that need to withstand mechanical stress and heavy wear.
  • Wear and Abrasion Resistance: With excellent wear resistance, Nylon 6 is perfect for components subject to friction and repetitive movement.
  • Impact Resistance: Its high impact resistance makes Nylon 6 ideal for applications requiring parts that can absorb shock and endure mechanical forces.
  • Flexibility: Nylon 6 is flexible yet strong, providing the necessary elasticity for dynamic, load-bearing parts.
  • Chemical Resistance: Offers resistance to oils, greases, and various industrial chemicals, ensuring long-term performance in harsh environments.
PropertyASTMMetric Units
Tensile StrengthD638M29 MPa
Modulus of Elasticity, Youngs ModulusD638M1,817 MPa
Elongation at Break (%)D638M3.2%
Flexural StrengthD790M82 MPa
Flexural ModulusD790M1,879 MPa
IZOD Impact (notched)D256A43 J/m
Heat Deflection Temperature at .45 MPa/66 psi (°C)D64893 °C
Technology:

FDM

Fused Deposition Modeling (FDM) uses a heated filament, like ABS or PLA, which is extruded through a nozzle that follows a programmed path to deposit material layer by layer on a build platform. The thermoplastics used in FDM create strong, durable parts that can endure mechanical stress. Its use of standard materials makes it a cost-effective choice for prototyping and low-volume production.

Applications:

High-Performance Thermoplastic

  • Industrial components
  • Automotive parts and accessories
  • Gears, bearings, and bushings
  • Tools and fixtures
  • Consumer goods
  • Functional prototypes

Advantages:

  • High Strength and Durability: Nylon 6 offers excellent tensile strength and impact resistance, making it suitable for heavy-duty applications that require robust, long-lasting parts.
  • Flexibility and Toughness: It provides a good balance of flexibility and toughness, allowing parts to endure mechanical stress and dynamic loads without breaking.
  • Wear and Abrasion Resistance: Nylon 6 is highly resistant to wear and abrasion, making it perfect for parts that undergo frequent friction or repetitive motion, such as gears and bearings.
  • Chemical Resistance: It offers resistance to a variety of chemicals, including oils, greases, and industrial solvents, allowing it to perform well in harsh environments.
  • Lightweight: Despite its strength, Nylon 6 is lightweight, reducing the overall weight of parts while maintaining high durability.
  • Temperature Resistance: It can withstand moderate heat exposure, making it suitable for parts that encounter elevated temperatures during use.

Disadvantages:

  • Moisture Absorption: Nylon 6 is hygroscopic, meaning it absorbs moisture from the air, which can affect its dimensional stability and mechanical properties. Parts may need post-processing treatments to minimize this effect.
  • Printability Challenges: Nylon 6 can be more difficult to print compared to other FDM materials due to warping and adhesion issues. It often requires a heated bed and controlled printing environment to achieve optimal results.
  • Lower Stiffness Compared to Other Materials: While Nylon 6 is tough and flexible, it is not as rigid as materials like ABS or PLA, which may limit its use in applications requiring high stiffness.
  • Higher Cost: Nylon 6 is generally more expensive than basic 3D printing materials like PLA or ABS, increasing material costs for large-scale or high-volume prints.
  • Temperature Limits: While it offers good heat resistance, Nylon 6 is not suitable for very high-temperature applications compared to materials like polycarbonate or ULTEM.

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