GammaMaster 1.75 mm RepRap M6 0.4 mm
search
  • GammaMaster 1.75 mm RepRap M6 0.2 mm
  • GammaMaster 1.75 mm RepRap M6 0.3 mm
  • GammaMaster 1.75 mm RepRap M6 0.4 mm
  • GammaMaster 1.75 mm RepRap M6 0.5 mm
  • GammaMaster 1.75 mm RepRap M6 0.6 mm
  • GammaMaster 1.75 mm RepRap M6 0.8 mm
  • GammaMaster 1.75 mm RepRap M6 1.0 mm
  • GammaMaster 1.75 mm RepRap M6 1.2 mm
  • GammaMaster 1.75 mm RepRap M6 1.4 mm
  • GammaMaster 1.75 mm RepRap M6 1.8 mm
  • GammaMaster 1.75 mm AP3X 0.6 mm
  • GammaMaster 1.75 mm AP3X 0.4 mm
  • GammaMaster 1.75 mm AP3X 0.8 mm
You must be logged in to manage your wishlist.

GammaMaster nozzle

SLC-NZL-GAMMA-175-REP-040
24.99 € 24.99 €
Tax excl.
Type
Diameter
Diameter Nozzle
Quantity

In stock 2 units available for immediate shipping.
units available for shipping in 5 - 8 days
Available for shipment within 5 - 8 days

Product temporarily out of stock with these characteristics. Select another combination.

Product temporarily out of stock with these characteristics. Select another combination.

We notify you when it will be available:

Approximate delivery date: Monday 25 November

The GammaMaster nozzle by Slice Engineering represents a significant advancement in 3D printing technology, specifically designed to tackle the challenges associated with abrasive filaments. Utilizing cutting-edge developments in metallurgy and surface preparation, this nozzle ensures exceptional thermal performance without sacrificing durability.

Video 1: Introducing the GammaMaster nozzle. Source: Slice Engineering.

With its innovative engineering, the GammaMaster nozzle is tailored for seamless printing with abrasive materials, allowing users to achieve high-quality results without the worry of wear and tear. Its advanced features set a new standard for 3D printing, enabling professionals to push the boundaries of their creativity and productivity without compromise.

Superior abrasion resistance

The GammaMaster nozzle is renowned for its exceptional abrasion resistance, making it an ideal choice for users who frequently work with abrasive materials. Backed by a Limited Lifetime Warranty, this nozzle offers superior protection against wear, effortlessly accommodating a wide range of filaments, from standard PLA to robust glass or carbon fiber reinforced advanced materials.

The GammaMaster nozzle demonstrated superb abrasion resistance

Image 1: The GammaMaster nozzle demonstrated superb abrasion resistance. Source: Slice Engineering. 

With a remarkable Rockwell C hardness level of 63, the GammaMaster ensures durability and reliability in demanding printing applications. However, it is important to note that certain filaments, such as glow-in-the-dark or tungsten carbide filled materials, are not covered under this warranty. For those interested in specialty filament printing, Slice Engineering recommends considering the Vanadium™ nozzle, which is specifically designed to handle such challenging materials.

Exceptional thermal performance

The GammaMaster nozzle is also engineered to deliver exceptional thermal performance thanks to its unique proprietary hardened alloy, an innovative design that give the GammaMaster nozzle the thermal efficiency typically associated with standard brass nozzles. With an impressive thermal conductivity that is 2.7 times superior to that of hardened steel nozzles, the GammaMaster allows for effective printing without the need for elevated nozzle temperatures when working with abrasive filaments.

The GammaMaster nozzle is highly thermally conductive

Image 2: The GammaMaster nozzle is highly thermally conductive. Source: Slice Engineering.

Its advanced Low Gamma coating withstands temperatures up to 380 ºC, while the nozzle itself can handle temperatures reaching 500 ºC, making it an ideal solution for a wide variety of high-performance printing applications. This combination of thermal efficiency and resilience ensures consistent, high-quality results across diverse materials.

Advanced anti-adhesion coating

The GammaMaster nozzle features the Slice Engineering innovative Low Gamma coating, which significantly reduces the surface energy of the nozzle to below 30 dynes/cm. This helps prevent plastic buildup around the tip, ensuring effortless cleanup and minimizing the likelihood of print failures without compromising on temperature resilience.

The Low Gamma coating helps prevent plastic buildup

Image 3: The Low Gamma coating helps prevent plastic buildup. Source: Slice Engineering.

Unlike traditional PTFE-based coatings, the GammaMaster’s surface can withstand high printing temperatures, making it suitable for a wide range of materials. This unique combination of low adhesion and high thermal tolerance ensures consistent, reliable results, allowing users to focus on creativity and precision in their 3D printing endeavors.

Versatility of geometries and diameters

The GammaMaster nozzle offers an extensive range of diameters and geometries, ensuring compatibility and versatility for various 3D printing applications. The RepRap M6 version (0.2 mm to 1.8 mm) is designed to fit standard M6 x 1.0 threads and it caters to users of traditional 3-axis FDM printers with its RepRap geometry. For those exploring more advanced techniques, the AP3X geometry (0.4 mm, 0.6 mm and 0.8 mm) features a pointed shape and an additional 2 mm of tip length, making it ideal for belt printing and non-planar applications.

The dimensions of the AP3X and RepRap M6 versions

Image 4: The dimensions of the AP3X and RepRap M6 versions. Source: Slice Engineering.

Each nozzle is clearly marked with the engraved orifice size on three sides for easy identification, and it is compatible with commonly used metric (6 mm) and standard (1/4 in) socket tools for straightforward installation. The GammaMaster nozzle can be used with a wide range of hotends such as the Copperhead, the Mosquito, the Mosquito Magnum+ or the E3D V6 hotend.

General information

Manufacturer Slice Engineering
Filament diameter 1.75 mm
Nozzle diameter RepRap: 0.2 mm, 0.3 mm, 0.4 mm, 0.5 mm, 0.6 mm, 0.8 mm, 1.0 mm, 1.2 mm, 1.4 mm, 1.8 mm / AP3X: 0.4 mm, 0.6 mm, 0.8 mm
Maximum working temperature 500 ºC

Other

HS Code 8477.9

Related products