Metal 3D Printing with BASF Ultrafuse

BASF Ultrafuse® 316L is an imaginative fiber to create 316L grade treated steel parts from existing FDM work area 3D printers.

It is intended for extreme simplicity of taking care of on traditional Fused Filament Fabrication (FFF) 3D printers. BASF Ultrafuse® 316L consolidates more prominent opportunity of plan with a lower absolute expense of proprietorship – printing metal parts simpler, quicker, and reasonable. Parts printed with Ultrafuse® 316L acquire their last properties, including hardness and strength, through the reactant debinding and sintering process. The reactant debinding innovation was created and presented by BASF and has arisen as the business standard.

Why Use BASF Ultrafuse® 316L

Ultrafuse® 316L has a much lower fire up cost to print useful metal parts. Because of this material being intended to run on a wide scope of business FFF machines, the machine necessities accompany a lot more modest sticker price than conventional metal added substance machines. For instance, DMLS (Direct metal laser sintering) machines can begin at the $600,000 cost range.

Metal fiber opens many part prospects that no one but added substances can get to. A portion of these potential outcomes incorporate weight decrease, part includes that preposterous with subtractive assembling, and minimal expense little group creation.

Another extraordinary element of metal added substances is that these parts can be controlled in their green state while they are delicate prior to sintering. After sinter, these parts act/machine equivalent to a stock piece of 316L.

What does BASF Ultrafuse® 316L Consist of?

BASF Ultrafuse® 316L is a tempered steel combination with high rates of Chromium and Molybdenum. This guides in erosion opposition. Having a higher erosion opposition implies this material has both imperviousness to rust and acidic obstruction. This property frees this material up to marine and airplane applications

This is additionally a weldable material. The lower carbon content makes 316L simpler to weld. This material is likewise less inclined to encounter weld rot.

BASF Ultrafuse® 316L is 90% 316L hardened steel powder by weight in the fiber structure. This metal powder is joined and blended in with the polymers Polyacetal and Polyolefin. This mix of materials is significant so the material can be run on a wide scope of business FFF machines.

3D Printer Requirements for BASF Ultrafuse® 316L

316L was made to run on a wide scope of business FFF machines. Here are the necessities for a printer to run the 316L fiber.

• Warmed Bed
Bed Temperature between 100-120C
• Extruder Temperature
240C least
• Bowden or Direct Drive Machine
This material is both adaptable and solid. Subsequently, it can run on Bowden or Direct Drive machines.
• Walled in area
A walled in area is enthusiastically suggested. This will assist with layer bond. Layer partition isn’t fixable with this material because of the sintering system. Assuming that parts have isolated layers, they won’t sinter accurately.
• Solidified Nozzle
While you can print with a non-solidified spout. It isn’t suggested. Little metal particles in the material will cause quicker wear of non-solidified spouts.

Nitty gritty Printing and Processing Instructions

For nitty gritty printing directions, kindly allude to this User Guidelines report.

Remember that parts will recoil anisotropically during the debinding and sintering process, so you’ll need to increase your parts in your cutting programming as follows:

X and Y: Scale by +119.82%
Z: Scale by +126.10%

Significant update: Ultimaker Cura v5.0 presents further developed help for BASF Ultrafuse 316L, making it simpler than any time in recent memory to print metal parts with your Ultimaker 3D printer. Look at our Ultimaker Cura 5.0 Overview video for subtleties.

For point by point directions for the debinding and sintering process, allude to this Process Guidelines record.

Allude to the BASF Ultrafuse 316L Processing Ticket page for insights concerning the cycle for re-appropriating the debinding and sintering of your parts.

More deeply study BASF Ultrafuse® 316L

Visit our site at or email us at to study BASF Ultrafuse® 316L, get a statement, seek clarification on some things or perused more itemized documentation on debinding reenactment rules, specialized datasheets, client rules, and the sky is the limit from there!


Alice covers platforms, policy and big tech at Printer Reviews. Prior to rejoining here, Alice was Senior Technology Editor of the TechDen. Alice first joined PrinterReviews in 2021. Before joining, he was the Tech Editor of the Daily Dot and a reporter and deputy editor at ReadWeb.

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