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LPBF Industrial 3D Printer
Farsoon Technologies is a global manufacturer of industrial metal and polymer additive manufacturing systems based on powder bed fusion (PBF) technology.
The open-platform 3D printing solutions are widely used in aerospace, automotive, medical, and advanced manufacturing industries.
A complete lineup of LPBF/SLM systems in every size. From tiny parts to massive rocket engines – there’s a machine for you.
Continuous Additive Manufacturing Solution (CAMS) is a production system developed by Farsoon to enable efficient, high-throughput additive manufacturing. It integrates automated build handling, powder management, and modular production workflows to reduce downtime between prints and improve machine utilization, helping manufacturers scale LPBF from prototyping to continuous industrial production.
Support Reduction System (SRS) is an advanced LPBF technology developed by Farsoon Technologies that reduces the need for support structures during metal 3D printing. By optimizing the laser scanning strategy and process parameters, SRS allows complex overhangs and internal features to be printed with fewer supports, improving design freedom while reducing material use and post-processing.
Farsoon Beam Shaping is a laser control technology developed for metal LPBF 3D printing. Unlike traditional Gaussian laser beams, which concentrate energy at the center, Beam Shaping enables a customized beam profile that distributes energy more evenly across the powder bed. This improves melt pool stability, reduces spatter, and enhances part quality, surface finish, and overall printing efficiency.
· Great fit for R&D
· Compact and cost-effective
· Build size: Ø195x220mm
· 500W laser source
· Easy maintenance
· Melt pool monitoring available
· Beam shaping technology available
· Smaller platform for R&D available
· High production efficiency
· Up to 6 lasers
· Reduced production cost per part
· One-button ease of use
· Ideal for batch manufacturing
· Consistent high-quality output
· Beam shaping technology available
· Ideal for massive production
· Large-scale structure printing
· Up to 32 lasers
· Up to 3862 L build volumn
· Suitable for aerospace applications
· Modular enclosed powder handling
· Advanced process control
· Beam shaping technology available
We have a full-range LPBF/SLM systems, from prototyping to production. Contact us to find the right system for your needs.
Structure Size: 780 mm height, 550 mm diameter Inconel combustion chamber with integrated cooling channels.
Metal LPBF enables large, complex rocket engine components with optimized internal cooling structures.
Additive manufacturing reduces cost and shortens development cycles by up to 80%.
Aerospace | Rocket engine turbopump components
Metal LPBF used to manufacture turbopump and flow-path components for a reusable LOX/Kerosene rocket engine.
Complex internal channels and integrated structures enabled by additive manufacturing.
Over 30 engine components produced using Farsoon metal AM systems.
Additive manufacturing accelerates development and reduces production time.
Aerospace | Combustion chamber flame tubes
Part consolidation reduces 9 assembled components into a single printed structure.
Production cycle shortened by 50% compared with conventional manufacturing.
Optimized lightweight design achieves 20% weight reduction while maintaining strength.
Automotive | Classic motorcycle engine components
Obsolete engine parts reproduced using 3D scanning and metal additive manufacturing.
Accurate replicas created from original components over 100 years old.
Functional metal parts produced in days instead of months.
Enables on-demand manufacturing of discontinued components for restoration.
Automotive | Metal structural components (Formula racing)
High-performance 3D printed metal components including titanium columns, stainless steel hubs, and aluminum parts.
Lightweight designs deliver high strength for critical load-bearing applications.
Topology optimization enables weight reduction while maintaining structural integrity.
Combined with polymer SLS parts for aerodynamic components, enabling a fully integrated AM race car solution.
Moulding | Shoe moulds for mass production
Farsoon metal AM supports high-volume production of complex shoe mold components.
Conformal cooling channels improve molding efficiency and product quality.
Molding efficiency increased by up to 70%.
Widely adopted in industry, supporting large-scale footwear manufacturing.
Industrial Tooling | Automatic grafting mold inserts
Automatic grafting enables seamless integration of 3D-printed and machined mold sections.
High-precision alignment ensures reliable bonding and structural integrity.
Improves production efficiency and reduces material waste in mold manufacturing.
Medical | Tantalum interspinal fusion cages
Porous tantalum fusion cages produced using Farsoon metal additive manufacturing.
Trabecular lattice structure promotes bone and vascular ingrowth with 68–78% porosity.
Elastic modulus matches human cancellous bone, reducing stress shielding and improving stability.
Certified by NMPA, marking a major step for metal AM orthopedic implants in clinical use.
Medical | Titanium interspinal fusion cages
Patient-specific titanium fusion cages produced using metal additive manufacturing.
Porous lattice structure supports bone ingrowth and long-term implant stability.
Achieved NMPA clearance, enabling clinical use of metal AM implants.
Medical | Porous titanium spine fusion cages
Additive manufacturing enables patient-specific spinal implants with complex porous architectures.
Lattice structure with customizable pore size and elastic modulus matches human bone properties.
Fully customized anatomical design improves implant fit and long-term stability.
Lifestyle | Titanium bicycle structural components
Topology-optimized titanium components produced for high-performance bicycle frames.
Structural integration reduces welding and enables complex one-piece geometries.
Lightweight design achieves frame weights as low as 1.4 kg while maintaining strength.
Rapid iteration and batch production improve efficiency by up to 60% over traditional casting.
Safety Equipment | Helmet lattice padding systems
3D-printed lattice padding replaces traditional foam inserts in EOD protective helmets.
Engineered lattice structures enable zonal stiffness and optimized impact energy absorption.
Lightweight open geometry improves ventilation, comfort, and reduces material usage.
Enables reliable production of safety-critical components with consistent quality.
Lifestyle | Titanium golf club heads
3D pinted titanium golf club heads for series production.
Complex internal structures and integrated designs enhance performance and reduce weight.
Product development cycle reduced from 45 days to one week.
Enables cost-efficient manufacturing with over 70% reduction in R&D expenses.
5/23 Hunt Street North Parramatta NSW 2151 Australia
Tel: +61 2 9687 1880 / Fax: +61 2 9687 1881