Manufacturing

• Dual-purpose shredder + granulator in a single system
• 14 swappable blades (2, 3, 7-tooth combinations) and 3.5 mm filter screen
• Dual motors (2 × 750 W, total ~1,500 W) for smooth operation
• Intelligent features: auto-feed, reverse mode, temperature control
• Modular design: shredder and granulator units detachable
• Safe hopper design and CE certification
• Dimensions: 95 × 75 × 145 cm; Weight (hybrid): 125 kg
• Suitable for PLA, ABS, PETG, PC, PEEK, HDPE, PP, and many other thermoplastics
• Efficiently produces granulates < 4 mm in one run

Precision Thin-Film Deposition with Low Thermal Load and Multi-Material Co-Evaporation

• Contact Metallization in Microelectronics
• Lift-Off Processes in Nanofabrication
• Thin-Film Deposition of High-Purity Metals
• Research & Development in Surface Science
• UHV Coating Systems for Sensors, MEMS, and Semiconductors

• Nikalyte NL50 benchtop system enables the deposition of ultra-pure metallic nanoparticles in research laboratories.
• It’s designed to be user-friendly and convenient, allowing for easy and repeatable deposition of non-agglomerated nanoparticles on samples up to 50mm in diameter.
• The deposition process is operated through a touchscreen interface, making it simple to use. Training for routine operations can be completed in as little as 10 minutes.
• NL50 allows for the modification of process variables, including nanoparticle size, distribution, and layer thickness.
• Samples can be loaded through a clear chamber door and can undergo plasma cleaning before deposition.
• Changing the source materials can be done quickly, within 5 minutes.
• The vacuum deposition process ensures the production of ultra-pure nanoparticles without hydrocarbons or other contaminants commonly found in chemical techniques.
• The nanoparticle coating is directly deposited onto the substrate, and after a typical cycle time of 30 minutes, it is ready for analysis without the need for additional drying or purification steps.

• NL-UHV enables the generation and deposition of nanoparticles in an Ultra-High vacuum to create functionalized surfaces on samples.
• The properties of the nanoparticle coatings can be precisely controlled, including size, composition, and structure, allowing for tailored properties.
• NL-UHV instruments allow the direct deposition of ultra-pure nanoparticles on a wide range of substrates and materials.
• The film density can be adjusted, and the coating adheres well to the sample surface.
• Available in different configurations, including single 1″ and 2″ sources, as well as the triple 1″ source NL-DX3, which enables the deposition of up to three materials individually or as alloys.
• The NL-QMS mass filter offers advanced control over nanoparticle deposition, allowing the scanning or filtering of nanoparticles by mass or diameter in real-time.
• The NL-QMS is operated through user-friendly WindowsTM software, providing intuitive control over the deposition process.

• Filament Extruder X 1EA
• Hot-Melting Pneumatic Dispense X 1EA
• -4-60°C (cooling/heating)
• Ultrasonic Sensor + 1OOTPI Fine Adjust Screw I Fork Sensor
• 720p HD Camera
• C02 Incubator (C02 5%, 37°C, Humidity 80%)
• Syringe Pneumatic Dispense X 5EA + NFC Tagging System 1EA

• possibility to use your own ceramic,
• Definition of the printing and firing parameters specific to the formulation,
• eep the benefit of your certification.

•  Good mechanical strength
• Good thermal conductivity
• High electrical resistivity
• High hardness
• Good wear resistant
• Chemically inert

•  Excellent mechanical properties
• Chemical inertness
• High Hardness

• High mechanical resistance
• Porous ceramic, good leachability
• Very stable at high temperature
• Compatible with complex shapes like cores
• Used with all alloys except cobalt

• Great Hardness and tenacity
• Biocompatibility
• Resistance to wear and thermal shock

• Low CTE (Coefficient of Thermal Expansion)
• Low thermal conductivity
• Wear Resistant
• Good for vacuum application

•  Ionic conductivity
• Oxygen-ion conductivity
• Heat insulating

• Biocompatible
• Bioresorbable

• Biocompatible
• Bioresorbable

• Biocompatibility
• Excellent bioactivity
• Good osseointegration

• Good resistance to thermal shocks
• Good resistance to wear
• Mechanical properties
• Low wettability against molten metals
• Good electrical insulation
• Resistance to corrosion (liquid and gas)
• Résistance à la corrosion (liquide et gaz)