Build Volume
Dimensions
Technology
The integrated breakout station attached to the main system offers enhanced ease of use. When the FS721M completes a build, the full build cartridge is transferred through an internal conveyer system to the breakout station. This fully enclosed work station allows for the safe and clean removal of powder from a completed build without the user needing to come in contact with the powder.
The reactive material capable Recirculating Filter System offers efficient filtering of the smoke dust generated in the build chamber during the sintering process. Its advanced capability allows for long-lasting operation hours which help reduce the cost of filter changes.
FS721M Powder Supply System offers efficient powder handling under inert gas protection. It is collects used powder from the Breakout station to sieving process; then deliver the refreshed powder to the powder supply hopper of FS721M.
The powder sieving station features a vibration screen offering efficient sieving of recycled metal powder from the overflow & recycled hoppers to filter the large particles. The metal powder collected in the refreshed powder bin can be re-used for powder supply.
Production Ready
The FS721M was from the very beginning designed for productivity. Ifs large build volume of 720 x 420 x 420mm is one of the largest currently available in the metal laser powder bed fusion landscape. The rectangular build volume is optimized for the production of large parts which favor one axis, this is especially valuable in industries such as automotive and tooling. Also, the rectangular build chamber is well suited for multi-laser configuration to boost industry־ leading build rate.
Precision + Quality
Farsoorfs advanced software control and precise scanning system offer uniform performance in multi- laser overlap zones. Continuous powder feeding, optimized gas flow and integrated filter module enable the uniform melting process of metal material. Powerful build process controls & real-time re-coating monitoring ensure the optimal industrial build quality.
Ease of Use
The FS721 M’s integrated conveyer system, breakout station and advanced powder handling system allow for an efficient and safe build cylinder transportation and fully-sealed de-powdering process. Features such as advanced calibration and electric leveling offer streamlined workflow. The FS721M is a truly open platform offers the user flexibility to tailor processing parameters for industrial applications and cost- competitive metal additive manufacturing.
Industrial Applications with FS721M
Featuring a unique rectangular industrial sized build platform, FS721M are well suited for large-scaled application favored one axis, or high-volume series production targeted applications aiming to open up new potential opportunities in molds & tooling, automotive and large-format industrial manufacturing.
Wing Rudder with Light-Weight Structure
Machine: FS721M-8
Material: Inconel 718
Size: 665 x 55 x 252 (H) mm
Layer thickness: 0.03 mm
Build Time: 130 Hours
This wing rudder is purpose-designed and functional-prototyped for aerospace industry. Featured with advanced light-weighting design including internal lattice supports and integrated structure, this part has achieved significant weight reduction over 60%. During the functional validation test it shows a comprehensive improvement on the mechanical performance. Thanks to additive technology the production of the part allows for 50% reduced lead time and 30% saving of manufacturing cost.
Rocker Arm with Topographic Design
Machine: FS721M-2
Material: Stainless Steel 316L
Size: 665 x 60 x 240 (H) mm
This aircraft rocker arm is designed and build for functional prototyping. Thanks to the advanced additive technology the rocker beam allows for structurally design optimization targeting light-weighting. Compared to traditionally manufactured part, it is additively manufactured in one-piece on FS721M-2 system; and achieves a significant weight reduction of 35% while still meets required mechanical strength performance.
Structural airframe parts, turbine casings, engine components Rocket and space hardware like thrust chambers, brackets, and housings High-temperature alloy manufacturing using IN718, HX, Haynes 230
Custom orthopedic implants and prosthetics built with biocompatible titanium alloys (Ti6Al4V) Surgical instruments and fixtures in stainless steel (316L) On-demand production for customized medical tools
Large structural and chassis components, such as transmission housings or suspension parts Tooling and molds optimized for manufacturing consistency and performance Heat-resistant exhaust components using high-temperature alloys like IN718 and HX
Large-scale prototyping and pre-production runs Material and process development with open access to parameters Automated continuous production using FS721M-8-CAMS concept for minimal downtime
Injection molds, die-casting tools, and tooling inserts Mold manifolds and conformal-cooled tooling High-strength maraging/tool steel components
Corrosion and heat-resistant parts in nickel alloys (IN625, IN718, HX) Valve bodies, pump components, downhole tools Heat exchangers and manifolds for extreme environments
