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AM DIRECTORY

Exhibitors & products 2025

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Volkmann GmbH

Closed Metal Powder Loop

Closed Metal Powder Loop

Volkmann GmbH
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Description

Holistic material flow and automation

We cover the entire material flow of metal powder in pre- and post-printing with integrated and fully automated solutions. From the unpacking and depowdering of the build job, to the buffering and preparation of the used powder, to the filling of the printers with fresh or used powder. Various material flow concepts can be implemented. Flexibility also exists with regard to room layout, distances, and transport routes, even accommodating several floors.

Vacuum conveying of the metal powder between the individual machines enables a high degree of automation. For example, the 3D printer can be automatically supplied with metal powder from an IBC container. A reliable material supply, even during unmanned shifts or within 24/7 production, is thus achievable.

Protection of the metal powder and protection of the staff

The quality of the 3D printed component is only as good as the quality of the metal powder used. Handling and conveying in closed systems protects the powder from harmful environmental influences. Fewer manual operations equal fewer operator errors and product mix-ups. Additional vacuum drying operations even improve the flow properties and thus the quality of the printed component.

Handling the metal powder in closed systems also protects personnel from harmful dust. The use of expensive personal protective equipment can therefore be reduced or even completely eliminated.

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powder transfer, recovery and extraction system: PowTReX

powder transfer, recovery and extraction system

The PowTReX series enables the efficient reprocessing of build excess metal powder for applications in Metal AM. The integrated vacuum conveyor handles the feeding of the powder - e.g. directly from the build frame of the 3D printer. The recovered powder can be filled into bottles or containers or conveyed by pipe to downstream machines.

Handling the metal powder in a closed system provides a high level of protection for personnel. The PowTReX systems are ATEX certified and therefore also suitable for metal powders with dust-explosive risks.

The PowTReX family includes two series or performance classes: the PowTReX and the PowTReX basic. In addition, we can also offer customized solutions for special requirements.

PowTReX enables powder reprocessing at a high throughput, and is therefore also suitable for 3D printers with large build volumes, as well as for multi-machine arrangements.

PowTReX basic offers the essential functions for the reprocessing of metal powders. The performance is designed for small to medium 3D printers. The prepared powder can be filled, for example, into an EOS bottle, SLM bottle or similar containers from other manufacturers.

PowTReX in a customized design: In the event that your requirements are not covered by any of our standard PowTReX systems, we can also build customized special designs to suit individual requirements.

How the PowTReX systems function: The metal powder is conveyed into the PowTReX through a hose or pipe by vacuum conveying. There are numerous possible setups:

  • draw the powder out of the build frame of an opened 3D printer by a suction lance
  • aspirate the powder by suction lance inside a closed glove box or a depowdering station
  • pull in the powder from a container or bottle by suction lance
  • draw the powder from an IBC container
  • draw the powder from a buffer container (e.g. vHub 250)

The length of the conveying pipe can be up to 25 meters and can also accommodate height differences. The high conveying capacity allows on the one hand the buffer hopper in the PowTReX to be filled quickly and at the same time the discharge point is quickly available again for subsequent tasks.

Within the PowTReX, oversized particles, composites and foreign bodies are separated by a sieve. Stimulated by an ultrasonic generator, high throughputs are achieved. In addition, sensors continuously measure the loading of the sieve with powder. The material supply from the buffer hopper is controlled accordingly ensuring the sieve screen is always optimally loaded with powder. The particles and other foreign bodies separated during sieving are collected in a bin.

A variant of the PowTReX system can also handle the metal powder under an inert protective gas.

More details about the PowTReX system in this video: https://youtu.be/EBDjRBRaFU4

DPS Metal 1

automatic unpacking and depowdering of the build job

Unpack the build job from the build frame and completely de-powder both. The DPS Metal 1 makes this possible automatically, and in a single work operation, without the requirement for an operator to perform any intermediate manual steps. The cleaning result is so good that downstream cleaning activities are usually unnecessary. During the cleaning cycle the metal powder is collected in a container for subsequent reprocessing.

The closed system protects personnel from the metal powder dust while equally protecting the metal powder from external environment contamination.

Functionality of the DPS Metal 1:

The build frame is fed directly from the 3D printer into the station with the build job together with the excess metal powder contained within it. Loading can be carried out manually (e.g. by lift truck) or using an automatic transport system.

The entire cleaning process takes place within a closed chamber either under atmospheric conditions or under inert gas. After inverting the build frame with the printed parts, cleaning nozzles use air jets (compressed air or inert gas) to remove excess powder from the components. This not only loosens the excess metal powder from the deepest crevices of the built component, but also removes the powder adhering to the build frame.

The cleaning process is further enhanced by the use of a vibrator unit. The frequency-modulating vibrations introduced into the component break up any bridges formed in the metal powder.

Optionally, in the DPS Metal 1 at the end of the cleaning process, the build job can either be removed from the build frame or left within it. Accordingly, they are subsequently unloaded from the station combined or separately. In the latter the build frame can be loaded with a new build plate in the system.

The loose metal powder is completely collected and buffered by vacuum conveying in a container integrated in the station. From there it can be conveyed, again by vacuum conveying, to a powder preparation station - e.g. a PowTReX. For a buffer volume of 250 L up to 1,000 L, the powder can be conveyed to an vHub system.

The exhaust air from the vacuum conveying system is safely discharged into the environment through a primary and secondary filter system (material with H14 classification) as standard.

Depending on the construction job geometry, a cleaning cycle usually takes between 10 and 30 minutes. The exact sequence of a cleaning cycle can be managed as a customer-specific recipe.

The DPS Metal 1 can be adapted to the different designs of the established manufacturers of 3D printers. A DPS Metal 1 is designed in each case to fit the specific dimensions and geometries of the build frame of a 3D printer manufacturer.

The DPS was developed by Volkmann as a project partner in the IDAM research project and successfully tested with two prototypes in demonstrator lines at BMW and GKN Additive.

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