SLS nylon-2.jpg3d-printed-pa12-nylon (1) (1).jpgSLS nylon.jpg

Features

  • Wide range of applications
  • Toughness
  • Abrasion resistance
  • High strength-to-density ratio
  • Hardness

About Nylon (SLS 3D printing)

Nylon, in general, is a synthetic thermoplastic material with better weathering properties, sunlight resistance, and a higher melting point. It's commonly used across various civil and military applications due to its great mechanical properties as well. It can be easily dyed, injection molded and machined, with SLS 3D printing in nylon producing precise, durable, lightweight but porous products. Nylon powder can also be combined with other materials such as glass, carbon fiber or aluminum to form a composite material with improved characteristics such as fire-retardant, toughness and metallic.

Order in Nylon (SLS 3D printing)
Robotics

Robotics

Aerospace

Aerospace

Engineering

Engineering

Properties

Property Value
Tensile Strength6,815 psi (46 MPa) *
Density0.034 lb/in3 (0.95 g/cm3) *
Impact Strength0.8 ft-lb/in (43 J/m) *
Flexural Strength6,850 psi (47 MPa) *

* Value for Nylon 12 PA

Description

Nylon is a broad family of synthetic thermoplastics based on aliphatic or semi-aromatic polyamides. It is often used for SLS 3D printing. Prints made from nylon powder have good surface finishes and great mechanical properties. Nylon or Polyamide (PA) has different variations which characterize the number and nature of chains in a material. This influences the properties of objects fabricated from nylon powder like resistance, stiffness, moisture absorption and flexibility. The common types are Nylon 6, Nylon 6/6 and Nylon 12. Another way of improving the material properties for specific applications is blending polyamide with add-ins to produce composite materials such as:

  • Glass-filled Nylon (PA GF) – compared to pure nylon, PA GF demonstrates better stiffness and higher heat resistance but is less flexible and has a natural (off-white) color. The composite is stable, so prints fit better, they are machinable, can be used for consumer goods and sports items, and perform well with complex parts.
  • Aluminum-filled Nylon (PA AF) – this composite is made by mixing PA with aluminum powder. As a result, objects have a metallic appearance and rigid structure after being printed. PA AF is easy to machine and post-process, less abrasion resistant, more substantial, has a rougher surface, more heat resistant and rigid.
  • Carbon Fiber filled Nylon (PA CF) – another composite with carbon fiber; its main advantage is electrostatically dissipative characteristics. PA CF features include resistant to temperature and wear, sturdy, lightweight, and has anthracite shade.
  • Fire-retardant Nylon – despite nylon and its improved versions being heat resistant, this blend can pass the burn test, which makes it an excellent choice for industries requiring fire-retardant parts. Main features include white color, tough, has good mechanical properties, passes smoke and toxicity tests as well.

Common uses

  • Functional prototypes
  • Low-volume rapid manufacturing
  • Motorsport and aerospace
  • Sport products
  • Enclosures and housing
  • Connectors and mechanical components
  • Medical and biocompatible applications

Advantages

  • Nylon powders appear stronger than nylon filaments and demonstrates better fitting, accuracy and wear resistance
  • It has greater geometrical possibilities, allowing to build complex parts
  • It's possible to make prints which require jointing with adhesives or machining
  • Porous structure allows objects to absorb coatings and dyes easily

Disadvantages

  • Uncoated prints suck moisture and dust from the air, change color and degrade over time
  • Some variations of material experience disproportional shrinkage while printing or cooling

Cover image by Creative Tools

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