Aconity MINI Entry-Level Industrial/Research Metal 3D Printer
The Aconity MINI is Aconity3D’s entry-level laser powder-bed fusion metal 3D printer designed for industrial R&D and scientific research. It is also the most versatile base model in the brand’s product lineup, featuring a build chamber with a diameter of 140 mm and a height of 200 mm. The system supports a single-laser configuration and employs a modular design, allowing users to flexibly customize functional modules based on their specific needs. Its pricing structure is tailored to the budgets of research institutions and small- to medium-sized manufacturing enterprises.
Aconity MIDI Mid-Size Industrial Metal 3D Printer
The Aconity MIDI is a mid-sized laser powder-bed fusion metal 3D printer developed by German company Aconity3D for small- to medium-volume production and high-end research applications. It features a build chamber with dimensions of Ø250 mm × H300 mm, is equipped with a single-fiber laser source, and boasts an industrially reinforced structural design that optimizes build volume, print stability, and space utilization. As such, it serves as a pivotal machine for bridging the gap between research prototyping and small-batch industrial production.
Aconity MICRO Micro- and Nano-Scale Metal 3D Printer
The Aconity MICRO is the first compact, non-configurable laser powder bed fusion (LPBF) metal 3D printer launched by German manufacturer Aconity3D. Designed specifically for micro- and nano-scale additive manufacturing applications, it serves as the brand’s core entry-level solution for precision microstructure fabrication. The system measures 2000 × 1000 × 1700 mm and weighs 850 kg, featuring a plug-and-play assembly design that supports 380 V three-phase power and complies with laboratory equipment power-consumption standards. By focusing on the practical implementation of micro-LPBF technology, this machine overcomes the traditional precision limitations of metal 3D printing in microstructure processing: it achieves a minimum layer thickness of 5 μm and a laser spot size of approximately 40 μm. Paired with Aconity’s proprietary vibration-assisted powder deposition technology, it enables uniform spreading of ultra-fine metal powders, thereby meeting the forming requirements for microscale functional components. Its fully removable powder hopper and build tray significantly reduce material-change time, while its WebSocket-based remote-access capability allows for rapid initiation of print jobs. As such, the Aconity MICRO is well suited not only for micro- and nanomanufacturing research in academic institutions but also for small-batch prototyping of precision microcomponents in industrial settings. It is a dedicated platform for micro- and nano-scale metal additive manufacturing, with a hardware design that balances compactness and professional-grade performance—eliminating unnecessary features and precisely addressing the core needs of microfabrication.
Aconity MICRO Micro- and Nano-Metal 3D Printer
Aconity MICRO Overview: AconityMICRO is Aconity3D’s first compact, pre-configured system, specifically designed for a single application: MICRO LPBF. As such, the system combines a small spot size—down to 40 microns—with the ability to disperse extremely fine powders at layer thicknesses below 10 microns, thanks to Aconity3D’s revolutionary vibratory powder deposition technology. Additional highlights include fully removable powder hoppers and build trays, enabling end users to perform very rapid material changes and quick process startups. Like all Aconity3D systems, AconityMICRO is equipped with the web-based control software AconitySTUDIO, which provides remote access to all relevant process parameters and machine components. The web-based user interface allows convenient remote desktop access to all functions from your office—when needed. Equipment Parameters: Build chamber diameter 100 mm × height 150 mm; laser configuration: single-mode, 200 W/400 W; optical configuration/spot size: F-theta, 40 μm; 3D scanning range: 50–350 μm; powder hopper capacity: build chamber capacity fully interchangeable for rapid material changes; powder deposition: bidirectional with vibration; layer thickness: 10–100 μm; maximum scan speed: 12 m/s; inert gas type/pressure: argon 4.6/6 bar, nitrogen 6 bar; inert gas consumption during printing: <5 L/min; cleaning: <30 L/min; residual oxygen content: <100 ppm; machine dimensions (W × D × H): 2000 mm × 1000 mm × 1700 mm; machine weight (without powder): 1850 kg. Key Advantages: Ultra-high forming accuracy, optimized for processing fine powders; highly efficient material changeovers with exceptional operational flexibility; intelligent remote control for convenient operation; superior build environment with low consumable waste; compact design with excellent space adaptability.
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