Plastic Powder – Dev

Farsoon FLIGHT® HT1001P: Advanced High-Temperature SLS 3D Printer for Polymer Printing

Alex Kozlov — Sun, 18 Aug 2024 05:18:34 +0000

Quad-Fiber Laser for Maximum Productivity
The innovative application of high-speed FLIGHT® Technology on the HT1001P CAMS platform boosts industry-leading productivity for large-sized parts. Featuring an expanded build cylinder measuring 1000mm×500mm×450mm and powerful dual or quad 300-watt fiber lasers, the FLIGHT® HT1001P creates two or four ultra-fine laser spots with a fast scanning speed of up to 20m/s (66ft/s) for each. The continuous batch production capability significantly improves machine uptime and offers up to 10 times throughput yield per floor area compared to standard SLS 3D printers within the same time frame.

Discover FLIGHT® HT1001P System

Cartridge Transportation Cart

The cartridge transportation cart is used for loading and extracting the build cartridge from the FLIGHT® HT1001P system. It can be magnetically secured to the loading or cooling station, preventing any undesirable movement during the build cartridge transition.
Loading Station

The loading station module of the FLIGHT® HT1001P is located at the left side of the system. The build cartridge is loaded via the electric door with an integrated semi-automated conveyor to the designated location. The user can then start the pre-heat process of the build cartridge in the loading station according to the operating temperature needs.
Build Station

The build station module is where the sintering process takes place. Once the build cartridge is in place, the build packet files are loaded into Farsoon’s BuildStar™ operating software, and the build process begins. The selective laser sintering 3D printer ensures efficient polymer 3D printing using materials like nylon, TPU, PEEK, and more.
Cooling Station

Upon build completion, the build cartridge is conveyed to the cooling station, where it will be allowed to cool under an inert atmosphere to control oxidation and part stability. The conveniently located control panel allows the user to program the cool-down environment and control movement on the conveyor.
Powder Delivery System

The powder is delivered by a highly efficient top-feed and roller-based recoating system, and the parts are fused using a fully digital multi-laser/multi-scanning system that offers tremendous productivity for SLS 3D printing applications. Whether for nylon 3D printing, TPU 3D printing, or PEEK 3D printing, the FLIGHT® HT1001P ensures high-quality results.
Breakout Station

The build cartridge is moved to the breakout station via the conveyor system. The breakout station is fully enclosed and accessed through multiple glove boxes, allowing for multiple operators while retaining a clean working environment. Built-in air-guns allow for gentle powder removal and detailed cleaning.
Vacuum Cleaner

The breakout station features a vacuum hose that allows the user to gently remove excess powder. The excess powder can then be recycled or discarded.
powder. The excess powder can then be recycled or discarded.

Farsoon FLIGHT® HT1001P CAMS System Advantages

Innovative Continuous

Additive Manufacturing Solution Concept

39.4×19.7×17.7 in / 1000 x 500 x 450 mm – Largest SLS build envelope on market

Quad 300-watt Fiber lasers boosts ultimate productivity

Open & Modular

The FLIGHT® HT1001P, like all Farsoon systems, is fully open. This means it’s an open material model, allowing users to fine-tune processing parameters for polymer 3D printing and third-party materials. The system’s modular design also allows for easy future upgrades and integration into existing production lines.

Powder Management

Designed for industrial-scale manufacturing, the FLIGHT® HT1001P system features a comprehensive, closed-loop powder handling system, offering enhanced automation and minimal operator interaction with the powder. The highly efficient top-feed powder delivery, robust roller recoating system, and fully enclosed de-powdering station streamline material workflow, improving productivity, safety, and ease of operation.

Quality Engineering Parts

The FLIGHT® HT1001P is capable of achieving chamber temperatures of up to 220℃, enabling the processing of high-temperature engineering materials such as PA6 and PA66 for direct-use end parts. The system’s patented multi-zone heater and intelligent temperature control ensure uniform thermal distribution, delivering consistent mechanical properties and surface quality for 3D printing polymer materials.

Industrial Applications with FLIGHT® HT1001P

With its large build envelope and high-speed sintering capabilities, the FLIGHT® HT1001P offers enhanced productivity for industrial-scale SLS 3D printing. From automotive to aerospace applications, the system delivers faster turnover rates and reduced costs, offering higher ROI for end-use parts.

Automotive Spoiler Assembly

Machine: FLIGHT® HT1001P-4
Material: FS3201PA-F (PA12)
Size: 896 x 191 x 150 mm and 922 x 238 x 91 mm

In collaboration with SAPW Automotive, this spoiler assembly designed for the new generation electric car features over sized length, multi-directional connections and structure features. Additively produced on Farsoon FLIGHT® HT1001P-4, this functional prototype can achieve optimal size accuracy for excellent matching, accelerated production cycle and strong mechanical properties; making it the perfect option for design verification during the vehicle development iteration.

Truck Air Inlet System Component

Machine: FLIGHT® HT1001P-4
Material: FS3401GB-F (PA12 with Glass Bead filled)
Size: 901×155×372mm
Build Time: 10 Hours

The Truck Air Inlet System Component is designed for functional verification and fabricated in a single piece in 10 hours using Farsoon’s FLIGHT® HT1001P-4. The produced part showcases high mechanical properties,size-precision at a significant reduced cost compared to traditional manufacturing.

FLIGHT® HT1001P Technical Data

Technical Data	FLIGHT® HT1001P-2
External Dimensions （L×W×H）	5820×2375×2185 (Full Module) (229.1×93.5×86.0 in) 2960×2375×2185 mm (Build Station only) ( 116.5×93.5×86.0 in )
Build Cylinder Size¹（L×W×H）	1000×500×450 mm ( 39.4×19.7×17.7 in )
Net Weight	Approx. 5000 KG ( 11023.1 lb ) (Full Module) / 3500KG (7716.2 lb) (Build Station only)
Laser Type	Fiber Laser, 2×300W
Scanner	High-precision three-axis galvo system
Scanning Speed	Max. 20 m/s (66 ft/s)
Max. Chamber Temperature	220°C ( 428℉ )

Technical Data	FLIGHT® HT1001P-4
External Dimensions （L×W×H）	5820×2375×2185 (Full Module) (229.1×93.5×86.0 in) 2960×2375×2185 mm (Build Station only) ( 116.5×93.5×86.0 in )
Build Cylinder Size¹（L×W×H）	1000×500×450 mm ( 39.4×19.7×17.7 in )
Net Weight	Approx. 5000 KG ( 11023.1 lb ) (Full Module) / 3500KG (7716.2 lb) (Build Station only)
Laser Type	Fiber Laser, 4×300W
Scanner	High-precision three-axis galvo system
Scanning Speed	Max. 20 m/s (66 ft/s)
Max. Chamber Temperature	220°C ( 428℉ )

1 The functional build volume depends on the parts/materials.

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Kings P440 SLS 3D Printer: Selective Laser Sintering for Industrial Applications

Ashkhen — Mon, 24 Jun 2024 14:29:53 +0000

main features

The Kings P440 SLS 3D Printer is a powerful and efficient Selective Laser Sintering (SLS) 3D printer designed for industrial-grade applications. With its large printing size, high molding efficiency, and user-friendly software, this SLS laser 3D printer ensures superior performance and precision for various industries.

High-Speed Laser Sintering: Optimized scanning and heating systems allow up to 5KG to be printed within 24 hours. The beam size (>0.28 mm) enhances printing speed, while a variable beam size improves printing precision.

High-speed Laser Sintering

Optimized scanning and heating system 5KG can be printed within 24h.
Beam size >0.28 mm: beam size relate to printing soeed and variable beam relate to printing precision.
8-zone independent temperature zone control.

External powder cylinder Supply

Save cost: The main machine can be smaller, better structure, easy maintenance, and cost saving.

Continuous supply: With continuously supplying powder to the machine, it simplifiesoperations and ensures continuous production.

One Powder cylinder can supply two machines: It simplifies factory layout for management and mass production.

Dual-scraper two-way intelligent powder supply

Dual-scraper two- way intelligent powder supply VS Roller powder supply.

Better printing surface: The powder bed will be pressed by roller , which may cause details blurring.

High consistency for precision and strength: It will cause higher deformation in the center and corner of thepowderbed for Roller powder supply.

High efficiency: Dual-scraper two-way intelligent powder supply is more efficient thanRoller powder supply.

self developed software

100% compatible with our own machine to reach best performance

User-friendly with customized languages supported EN,DE,SP,FR,CNetc.

Free updating, rich data packs for different application and industry

self developed materials

Material is 100% compatible with SLS machine, which will ensure better precision, stability, and accuracy.

Econimic and cost-effective.

1. It is 100% produced by Kings, price much less than other OEMbrands.
2. It makes the re-use rate close to 100%. 20% fresh powder and 80% used powder.

Production capacity reaches 15,00kg/day. It also performs well inEOSand many other models. The high performance is approvedbydomestic customers.

GFPA1200BK nylon powder (black). Black nylon powder with a particle size D50 of about 50 microns and a narrow and uniform distribution. It can be sintered using fiber laser or carbon dioxide laser, and the powder has high sphericity and extremely high fluidity.

GFPA12GB glass fiber reinforced nylon powder (blue gray). Excellent transparency. Excellent humidity and moisture resistance. Fast to build and easy to finish. Accurate and dimensionally stable.

GFPA1200 nylon powder (white). Nylon powder with high sphericity and fluidity. Maintain color stability in repeated use.

INDUSTRIAL APPLICATIONS

Functional Proof of Concept Models, Design Evaluation Models (Form & Fit), Engineering Design Verification, Product Performance and Testing, Wind-Tunnel Test Models.

Rapid Manufacturing. Aerospace hardware, Medical and healthcare, Electronics; packaging, connector, Homeland security, Military hardware.

Tooling and Patterns. Investment Casting Patterns, Jigs, fixtures and tools.

Production.Part consolidation exercises. Complex plastic parts. Short run end-use components.

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Farsoon eForm: Advanced SLS 3D Printer for Precision Polymer 3D Printing

Fri, 16 Sep 2022 02:16:13 +0000

Introducing Farsoon eForm: A High-Performance SLS 3D Printer

The Farsoon eForm is a cutting-edge SLS laser 3D printer designed for industrial 3D SLS printing with exceptional material flexibility. With robust small-batch manufacturing capabilities, this selective laser sintering 3D printer produces high-quality, repeatable parts that meet the highest industry standards. Whether you are new to 3D printing polymer technologies or looking to expand your plastic manufacturing production, the eForm ensures optimal productivity, economy, and reliability.

Discover eForm System

1 – Breakout Station

2 – Powder Management System (PMS)

3 – Powder Delivery Unit (PDU)

The build cartridge is moved to breakout station via the conveyor system. The Breakout Station is fully enclosed and is accessed through multiple glove boxes on the front and back of the station allows the capability of multiple operators while retaining a clean working environment. The built-in air-guns allow for gentle powder removal and detailed cleaning.

Integrated with multiple powder handling process including used powder recycle & storage, new powder supply, high-speed mixing, and powder sieving, the robust PMS system enables a streamlined material workflow with minimum down-time of the 3D printing machines, with improved throughput and lower cost per part.

The PMS system can also be paired with a mobile Powder Delivery Unit (PDU) which transports the prepared powder directly to the printers. Once there the PDU’s integrated pump transfers the powder into the printer’s powder feed cartridge.

Farsoon eForm Industrial Plastic Sintering Machine Advantages

Temperature capable up to 190°C

Versatile build envelope

9.8 × 9.8 × 12.5 in / 250 × 250 × 320 mm

Industrial 30-watt CO₂ laser

Production Interface

The eForm features an intuitive touchscreen-based UI for easy operation. This makes SLS 3D printing more accessible for users of all experience levels.

Comprehensive Software

The eForm includes a suite of powerful, self-developed software tools for build preparation, machine control, and process optimization. The system remains fully compatible with third-party software and materials, ensuring flexibility in polymer 3D printing workflows.

Cost-Effective Performance

As an entry-level 3D printer SLS system, the eForm delivers industrial-grade performance at an affordable cost. It offers high-resolution SLS 3D prints with detailed precision and functional part production.

Industrial Applications of the eForm 3D Printer for Nylon, PEEK, and TPU

The eForm plastic laser sintering system is a high value proposition system with all the functionality and power of our industrial level systems. This makes the eForm an ideal option from new users entering the industrial additive space to seasoned users looking for multiple machines that are material specific.

Guide for DDH Surgery

Machine: eForm
Material: FS3300PA

The 3D printed surgical guide is used in DDH Surgery (Developmental dysplasia of the hip) requires a high level of operational precision. Designed from CT scan imaging data and produced on Farsoon’s eForm system, the surgical guide helps doctors with patient communication and physical practice in advance; it also enables faster, more accurate position for the depth and angle of the implant during the surgery, reducing overall operation time and complications compared to the traditional surgery.

Automotive Carbon Canister

Machine: eForm
Material: FS3401GB

Designed to optimize the fuel efficiency of the vehicle, the carbon canister features a complexed structure that requires a long design to market cycle and high prototyping cost with traditional molding. With advanced additive technology the new canister is able to achieve easier and faster design iteration as well as improved fuel efficiency. The new design parts can be produced within one day; it also passes the functional test of maintaining a pressure of 1.5 Bar for 1 minute without any leakage.

eForm Technical Data

Technical Data	eForm
External Dimensions （L×W×H）	1735×1205×1975 mm ( 68.3×47.4×77.8 in )
Build Cylinder Size¹（L×W×H）	250×250×320 mm ( 9.8×9.8×12.6 in )
Net Weight	Approx. 1700KG ( 3747.9 lb )
Laser Type	CO₂ laser, 1×30W
Scanner	High-precision galvo system
Scanning Speed	Max. 7.6 m/s ( 24.9 ft/s )
Max. Chamber Temperature	190°C ( 374℉ )

1 The functional build volume depends on the parts/materials

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Farsoon Flight® 403P-2 Series – Advanced SLS 3D Printer for Industrial Applications

Dfadin@gmail.com — Fri, 16 Sep 2022 02:15:02 +0000

FIBER

Equipped with powerful fiber lasers instead of standard CO2 lasers, the Flight® HT403P SLS 3D printer delivers significantly increased power to the powder bed. This robust and stable fiber laser system ensures improved laser longevity, essential for ROI in manufacturing applications. The selective laser sintering 3D printer is ideal for high-performance polymer 3D printing, including nylon 3D printing.

FAST

With enhanced laser power, improved energy distribution, and a smaller laser spot size, Flight® Technology achieves full sintering of powder in a significantly shorter time. Featuring scanning speeds over 20m/s (66 ft/s) and a large build volume, the SLS laser 3D printer optimizes production speed for 3D printing polymer materials, pushing additive manufacturing productivity to new heights.

OPEN PLATFORM

Like all Farsoon systems, the Flight® HT403P offers fully open machine parameters and material choices. The selective laser sintering printer supports a wide range of processable materials, offering the flexibility needed for future SLS 3D printing applications in industries like automotive, aerospace, and consumer products. This flexibility allows 3D printing with nylon, polypropylene 3D printing, and peek 3D printing.

DUAL-LASER CONFIGURATION

For faster production turnaround, the dual-laser configuration uses two powerful 300-watt fiber lasers and dynamic optical systems, creating ultra-fine laser spots with fast scanning speeds. This setup provides 50-90% higher production volume rates than single-laser systems and 3-4 times higher production yield compared to a CO2 laser SLS 3D printer.

FIBER

Equiped with powerful fiber lasers in place of the standard CO2 lasers, Flight® HT403P is capable of delivering greatly increased power to the powder bed. Due to the more robust and stable nature of a fiber laser system, Flight® Technology also provides improved laser longevity which is key when considering ROI for manufacturing applications.

DUAL-LASER CONFIGURATION

To further increase the manufacturing turn-over rate, the dual-laser configuration for Flight® technology takes advantage of two powerful 300-watt Fiber lasers and two dynamic optical systems, creating two ultra-fine laser spots with fast scanning speed. The new dual-laser configuration can offer significantly 50-90% higher production volume rate compared to the single laser configuration of Flight® Technology, and 3 to 4 times production yield compared to a single CO2 laser machine.

OPEN PLATFORM

Like all Farsoon systems, FLIGHT® HT403P is offered with fully open machine parameters and unlocked matreial choices. In addition with its increased power and energy absorption characteristics Flight® Technology will be capable of accessing a much different range of process-able materials and operational flexibility as compared to standard laser sintering systems, which allows for increased freedom for future AM material and application development.

FAST

With robust laser power, improved energy distribution to the material, and smaller laser spot size, Flight® Technology is able to achieves the full sintering of powder in a significant short amount of time. With scanning speed of over 20m/s (66 ft/s) as well as the large build volume, Flight® HT403P is able to achieve extreme sintering speeds that pushes the additive manufacturing productivity to a new level.

Industrial Applications with FLIGHT® 403P-2 Series

The optimal performance of FLIGHT® 403P-2 Series combining extreme sintering speed and high feature resolution has opened up many potential markets and applications for true series production, such as electronic components, robotics, specialized tools & models, battery units, filter modules as well as many consumer products.

TPU Helmet for 2022 Winter Olympic Bobsled Team

Automotive Fuse Box

TPU Helmet for 2022 Winter Olympic Bobsled Team

Automotive Fuse Box

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Farsoon 252P Series: Industry-Leading SLS 3D Printer for Nylon, PEEK, and TPU

Dfadin@gmail.com — Fri, 16 Sep 2022 02:07:12 +0000

Introducing the Farsoon 252P Series: Advanced SLS 3D Printer for Polymer, Nylon, PEEK, and TPU
The Farsoon 252P Series offers a compact build envelope, robust high-temperature capabilities, and a truly open parameter strategy, making it the ideal solution for SLS material development and small-batch production. This SLS laser 3D printer is perfect for industries seeking versatility, high performance, and a customizable experience for polymer 3D printing.

Discover 252P Series System

1 – Breakout Station

2 – Powder Management System (PMS)

3 – Powder Delivery Unit (PDU)

The Farsoon 252P Series incorporates an efficient Breakout Station, where the build cartridge is moved via a conveyor system. This enclosed station ensures a clean working environment, with multiple glove boxes allowing for multiple operators. The air guns gently remove powder, making it easy to clean 3D prints in polymer or other materials like nylon, PEEK, and TPU.

The integrated Powder Management System handles used powder recycling, storage, new powder supply, high-speed mixing, and powder sieving. This system reduces downtime, ensuring a streamlined workflow and lower costs per part. The SLS 3D printer achieves optimal throughput with minimal maintenance, whether you’re printing nylon, polypropylene, or TPU.

Paired with a mobile Powder Delivery Unit, the PMS system transports prepared powder directly to the printer. Once there, the PDU’s integrated pump delivers the powder into the printer’s feed cartridge, ensuring a seamless powder handling process for SLS 3D print applications.

Farsoon 252P Series Industrial 3D Printer Advantages

Super Temperature capable up to 280°C

Versatile build envelope

9.8 × 9.8 × 12.5 in / 250 × 250 × 320 mm

Powerful 100 or 55-watt CO₂ laser

High-Temperature Performance for Advanced Materials

The Farsoon 252P Series can handle chamber temperatures up to 220°C and 280°C with the HT252P and ST252P systems. With enhanced temperature shielding and laser power, it efficiently processes high-performance materials like PA6, PA66, PPS, PEI, PEKK, and PAEK for direct-use applications in automotive, aerospace, and more.

Versatile Applications for Your Business

The Farsoon 252P Series is designed to support a wide range of additive manufacturing solutions, from 3D printer for nylon to PEEK 3D printing. Its open-platform system provides flexibility for material development and ensures compatibility with third-party materials, making it a perfect choice for selective laser sintering printers in industries such as scientific research, medical, and automotive.

Comprehensive Software for Seamless Operation

Like all Farsoon systems, the 252P Series is equipped with advanced Farsoon software for build preparation, machine control, and operations. It is fully compatible with third-party software and materials, providing a robust and flexible solution for 3D printing polymer and high-performance materials like nylon, TPU, and more.

Industry Applications Using Farsoon 252P Series

With truly open systems and profound industry know-how in SLS material engineering, Farsoon has established long-term partnerships with many industry-leading material manufacturers. By working closely together, we test 3rd party materials in the development process, provide customers verified material + AM system solution to support new applications with new polymer materials.

Water Pump Strainers

Machine: ST252P
Material: ACTIVE Material from FABULOUS
Certification: ACS, for potable water applications

RICOH 3D printing service, FARSOON customer, based in UK, is using ACTIVE material for manufacturing water pump strainers. ACTIVE is a new material specific to the Water industry: it has been certified (ACS certification) for potable water applications and plastic parts in contact with drinkable water, such as water pumps, hydraulic systems, data sensors, and all permanent water-immersed parts.

Adaptor Pipe

Machine: HT252P
Material: PA6
Build Time: 10 hours

In collaboration with BASF and PATAC, this new generation of adaptor pipe prototype is manufactured with high-temperature resistant PA6 material on Farsoon’s HT252P system. Thanks to the design and manufacturing flexibility brought by AM, PATAC engineers are able to achieve functional integration by combining multiple parts into one, to better withstand the high-frequency vibration load and burst pressure under the automotive engine operation.

Railway Outlet Duct

Machine: ST252P
Material: PPS

Approved by Japan Railway Rolling Stock & Machinery Association, this Railway outlet duct application is manufactured with high-temperature resistant PPS material on Farsoon’s ST252P system, featuring excellent flame retardant, electrical insulation, corrosion resistance and size stability.

252P Series Technical Data

Technical Data	ST252P
External Dimensions （L×W×H）	1735×1225×1975 mm ( 68.3×48.2×77.8 in )
Build Cylinder Size¹（L×W×H）	250×250×320 mm ( 9.8×9.8×12.6 in )
Net Weight	Approx. 1700KG ( 3747.9 lb )
Laser Type	CO₂ laser, 1×100W
Scanner	High-precision galvo system
Scanning Speed	Max.10 m/s ( 32.8 ft/s )
Max. Chamber Temperature	280°C ( 536℉ )

Technical Data	HT252P
External Dimensions （L×W×H）	1735×1205×1975 mm ( 68.3×47.4×77.8 in )
Build Cylinder Size¹（L×W×H）	250×250×320 mm ( 9.8×9.8×12.6 in )
Net Weight	Approx. 1700KG ( 3747.9 lb )
Laser Type	CO₂ laser, 1×55W
Scanner	High-precision galvo system
Scanning Speed	Max.10 m/s ( 32.8 ft/s )
Max. Chamber Temperature	220°C ( 428℉ )

1 The functional build volume depends on the parts/materials

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Farsoon Flight® 252P Series: High-Performance SLS 3D Printing for Polymers

Dfadin@gmail.com — Fri, 16 Sep 2022 02:00:12 +0000

Introducing FLIGHT® 252P Series. The implementation of innovative FLIGHT® Technology on the 252P super-temperature capable platform offers a powerful and compact machine solution for material development, providing enhanced part features as well as an improved cost-performance ratio.

Discover FLIGHT® 252P Series System

1 – Breakout Station

2 – Powder Management System (PMS)

3 – Powder Delivery Unit (PDU)

The build cartridge is moved to the breakout station via the conveyor system. The Breakout Station is fully enclosed and is accessed through multiple glove boxes on the front and back of the station, allowing the capability of multiple operators while retaining a clean working environment. The built-in air-guns allow for gentle powder removal and detailed cleaning.

Integrated with multiple powder handling processes, including used powder recycling & storage, new powder supply, high-speed mixing, and powder sieving, the robust PMS system enables a streamlined material workflow with minimum downtime of the SLS 3D printer, improved throughput, and lower cost per part.

The PMS system can also be paired with a mobile Powder Delivery Unit (PDU), which transports the prepared powder directly to the SLS laser 3D printer. Once there, the PDU’s integrated pump transfers the powder into the printer’s powder feed cartridge.

Farsoon Flight® 252P Series Industrial 3D printer Advantages

Super Temperature capable up to 280°C

Versatile build envelope

9.8 × 9.8 × 12.5 in / 250 × 250 × 320 mm

Powerful 300-watt fiber laser

Powerful + Versatile

Equipped with an increased energy absorption fiber laser, paired with truly open parameters, the FLIGHT® 252P Series is capable of accessing a much wider range of processable materials and operational flexibility compared to standard laser sintering systems, allowing complete freedom of material and application development.

Fiber Laser

The SLS 3D printer is equipped with a powerful fiber laser instead of the standard CO2 laser. This enables the 3D printer polymer to deliver significantly increased power to the powder bed, thanks to the more robust and stable nature of the fiber laser. It also provides improved laser longevity, which is key when considering ROI for manufacturing applications. With the ultra-fine fiber laser spot size, the FLIGHT® 252P Series produces parts with improved feature detail compared to other standard plastic laser sintering technologies.

High Temperature

The FLIGHT® 252P Series offers two configurations capable of achieving processing chamber temperatures from up to 220°C (HT) to 280°C (ST). Enhanced thermal controls, temperature-shielded components, and enhanced parameters offer customers the ability to process high-performance polymer materials such as PEEK 3D printing, nylon 3D printer, and polypropylene 3D printer materials with excellent results.

Industrial Applications with Flight® 252P Series

The optimal performance of FLIGHT® 252P Series combining high-temperature capabilities and high feature resolution has opened up many potentials for new polymer materials development to expand new markets and applications.

Mini-drone Components

Machine: FLIGHT® HT252P
Material: FS3300PA-F
Wall thickness: 0.3 mm

YZH is a professional part supplier for electronic designer models like RC cars and mini-drones. The parts usually involve intricate details which need to withstand extreme conditions, including collision and drops. This series produced end-use mini-drone frame part is fabricated with FS3300PA-F material on the FLIGHT® HT252P; it showcases high accuracy detail features for assembly and strong mechanical properties in operation.

Engine Intake Manifold

Machine: FLIGHT® HT252P
Material: Customized PA6 material
Size: 170 × 140 × 90 mm

This intake manifold module is designed for functional testing on a passenger vehicle engine system. With advanced additive technology, engineers are able to create the new design according to the dynamic boundary conditions of the engine and fabricate in one piece without the need to split the part into multiple sections for production and assembly using conventional processes. Fabricated with customized PA6 with glass bead-filled material, the intake manifold module meets the high-temperature and pressure requirements.

FLIGHT® 252P Series Technical Data

Technical Data	FLIGHT® ST252P
External Dimensions （L×W×H）	1735×1225×1975 mm ( 68.3×48.2×77.8 in )
Build Cylinder Size¹（L×W×H）	250×250×320 mm ( 9.8×9.8×12.6 in )
Net Weight	Approx. 1700KG ( 3747.9 lb )
Laser Type	Fiber laser, 1×300W
Scanner	High-precision three-axis galvo system
Scanning Speed	Max. 20 m/s ( 65.6 ft/s )
Max. Chamber Temperature	280°C ( 536℉ )

Technical Data	FLIGHT® HT252P
External Dimensions （L×W×H）	1735×1205×1975 mm ( 68.3×47.4×77.8 in )
Build Cylinder Size¹（L×W×H）	250×250×320 mm ( 9.8×9.8×12.6 in )
Net Weight	Approx. 1700KG ( 3747.9 lb )
Laser Type	Fiber laser, 1×300W
Scanner	High-precision three-axis galvo system
Scanning Speed	Max. 20 m/s ( 65.6 ft/s )
Max. Chamber Temperature	220°C ( 428℉ )

1 The functional build volume depends on the parts/materials.

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Farsoon Flight® 403P Series: Advanced SLS 3D Printer for High-Performance Polymer Materials

Dfadin@gmail.com — Fri, 16 Sep 2022 01:45:45 +0000

Introducing FLIGHT® Technology. Farsoon is a leader in SLS 3D printers and one of the first to develop production-targeted Laser Powder Bed Fusion (LPBF) solutions using robust fiber lasers. The FLIGHT® Technology enables the next level of selective laser sintering 3D printing, offering industrial-quality parts with extremely fine details. This SLS laser 3D printer eliminates the need for additive agents, consumables, and reduces operational costs while supporting sustainable manufacturing.

Discover FLIGHT® 403P Series System

Feed Cartridge

The FLIGHT® 403P Series features exchangeable build and feed cartridges that allow for rapid cartridge swaps, reducing machine downtime and maximizing production efficiency.
Build Cartridge

Farsoon’s FLIGHT® 403P system is equipped with an exchangeable build cartridge that works in conjunction with Farsoon’s External Cooling Station to ensure dimensional accuracy and mechanical performance of the finished parts.
Breakout Station

The FS04-PPS Breakout Station ensures safe powder handling for SLS 3D printing. It features an enclosed chamber with integrated gloves for efficient powder removal and a built-in sieving screen.
External Cooling Station

The External Cooling Station provides efficient cooling and shortens production time by cooling parts outside the main system under inert gas, improving machine up-time.
External Cooling Box

The FS-EC-02P Cooling Box enhances turnaround time, cooling parts under controlled inert gas conditions to ensure uniform cooling for high-quality end-use parts.
Powder Management System

The Powder Management System (PMS) streamlines the process of recycling powder, mixing new powder, powder sieving, and storage, reducing downtime while improving throughput in polymer 3D printing.
Powder Delivery Unit

The Powder Delivery Unit (PDU) transports powder directly to the printer, ensuring seamless integration with the build cartridge for optimal SLS 3D printing performance.

Farsoon Flight® 403P Series Industrial 3D printer Advantages

Powerful single 500-watt fiber laser enable superior production speed

Industrial-scale build envelope up to 400 x 400 x 540 mm

Featured details as small as 0.3mm

Fast

With robust laser power, improved energy distribution to the material and smaller laser spot size, the new FLIGHT@ Technology achieves significantly higher power density upon reaching the surface of the powder bed, thus enabling the full sintering of powder in an extremely short amount of time. With scanning speed of over 20m/s (66 ft/s), FLIGHT® Technology is able to achieve extreme sintering speeds that pushes the additive manufacturing productivity to a new level.

Production Ready

Application of FLIGHT@ Technology on Farsoorfs flagship production system 4Q3P series leads to a powerful, yet versatile polymer additive production. The FLIGHT® 4Q3P series is offered in muhiple productiorvsized build cylinder for improved throughput and high- temperature-capable configuration. Like all Farsoon systems, the new Flight® 403P Series is truly open with machine parameters and powder choice are unlocked for the users allowing for unparalleled freedom and operational flexibility.

Fine Detail

FLIGHT@ Technology is able to achieve a more homogenous energy distribution over the processing surface, and a finer spot size compared to the standard laser sintering systems, while at the same time ensuring good energy penetration throughout the entire process. This results in improved feature detail compared to other plastic powder-based technologies with feature details as small as 0.3mm (0.012 inch) while still achieving the part property benefits of standard laser sintering.

Fiber

FLIGHT@ Technology or FIBER LIGHT@ Technology takes advantage of powerful fiber lasers in place of the standard C02 lasers found in standard laser sintering systems. A fiber system is capable of delivering greatly increased power to the powder bed. Due to the more robust and stable nature of a fiber laser system as compared to a C02 system FLIGHT@ Technology also provides increased laser longevity which is key when considering RO I for manufacturing applications.

Industrial Applications with Flight® 403P Series

The optimal performance of FLIGHT® 403P Series combining extreme sintering speed and high feature resolution has opened up many potential markets and applications for true series production, such as electronic components, robotics, specialized tools & models, battery units, filter modules as well as many consumer products.

ERI Molded Fiber Pulp Set

Machine: FLIGHT® HT403P
Material: FS3300PA-F (PA12 with carbon black)
Build Time: 24 Hours for 4 full sets

A full mold tooling set for electronics packaging includes a mold body, a cavity mold, and a screened mold. FLIGHT® 403P Series is able to deliver improved feature detail compared to other plastic powder-based technologies with feature details as small as 0.3mm, specific offsets between the modules, adjusting the design of hole sizes and porosity to best suit customized applications.

Underwater ROV Propelled by Farsoon FLIGHT® Technology

Machine: FLIGHT® HT403P
Material: FS3300PA-F (PA12 with carbon black)
Build Time: 150 thruster protective covers produced in one day

QYSEA Technology, a leading Underwater Remote Operated Vehicles (ROV) manufacturer, introduced one of the most popular consumers ROV — Fifish V6 with robust performance. Since 2018, QYSEA Technology adopted Farsoon’s latest FLIGHT® Technology for their development process and series production needs. During the year of 2019 QYSEA has successfully fabricated more than 30,000 thruster protective covers on FLIGHT® HT403P systems for end-use parts in their consumer ROV production.

Henvvei Customized After-Market Automotive Lighting

Machine: FLIGHT® HT403P
Material: FS3300PA-F (PA12 with carbon black)
Build Time: 1 set produced in 24 hours, including design iteration & 3D printing

Automotive after-market lights target the niche market for improved functionality, safety, manufacturing quality & design aesthetics. In order to fit into a variety of car model headlight bracket frames with the latest Lighting technology, Henvvei uses FLIGHT® HT403P as an in-house technology from design iteration to end-use part production, without the need for the time-consuming mold making process.

FLIGHT® 403P Series Technical Data

Technical Data	FLIGHT® HT403P
External Dimensions （L×W×H）	2540×1320×2220 mm ( 100.0×52.0×87.4 in )
Build Cylinder Size¹（L×W×H）	400×400×450 mm ( 15.7 × 15.7 × 17.7 in ) or 400×400×540 mm ( 15.7 × 15.7 × 21.3 in )
Net Weight	Approx. 3100 KG (6834.3 lb)
Laser Type	Fiber Laser, 1×500W
Scanner	High-precision three-axis digital galvo system
Scanning Speed	Max. 20 m/s ( 65.6 ft/s )
Max. Chamber Temperature	220°C ( 428 ℉ )

Technical Data	FLIGHT® SS403P
External Dimensions （L×W×H）	2540×1320×2220 mm ( 100.0×52.0×87.4 in )
Build Cylinder Size¹（L×W×H）	400×400×450 mm ( 15.7 × 15.7 × 17.7 in ) or 400×400×540 mm ( 15.7 × 15.7 × 21.3 in )
Net Weight	Approx. 3100 KG (6834.3 lb)
Laser Type	Fiber Laser, 1×500W
Scanner	High-precision three-axis digital galvo system
Scanning Speed	Max. 20 m/s ( 65.6 ft/s )
Max. Chamber Temperature	190°C ( 374 ℉ )

1 The functional build volume depends on the parts/materials

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Farsoon 403P Series: Advanced SLS 3D Printer for Polymer, Nylon, and TPU Printing

Dfadin@gmail.com — Sun, 04 Sep 2022 02:30:17 +0000

Introducing the Farsoon 403P Series: The Ultimate SLS 3D Printer for Polymer, Nylon, PEEK, and TPU Printing

The Farsoon 403P Series is Farsoon’s flagship SLS 3D printer, designed to offer exceptional flexibility and high-performance capabilities for selective laser sintering 3D printing. With various configurations, including high-temperature options, this SLS laser 3D printer excels in both prototyping and full-scale production of polymer 3D prints.

Discover 403P Series System

Feed Cartridge
The FLIGHT® 403P series is designed with exchangeable build and feed cartridges, reducing downtime and enhancing throughput for SLS 3D printing processes.
Build Cartridge
The build cartridge can be paired with the External Cooling Station, ensuring controlled and efficient cooling of 3D printer polymer parts to maintain dimensional accuracy and mechanical performance.
Breakout Station
Farsoon’s FS04-PPS Breakout Station streamlines the powder removal and management process, ensuring a clean and efficient workflow for 3D printing polymer applications.
External Cooling Station
The External Cooling Station minimizes cool-down time after printing, optimizing machine up-time and improving efficiency in selective laser sintering printing.
External Cooling Box
The FS-EC-02P External Cooling Box offers uniform cooling under inert gas atmosphere, enabling faster part cooling and reducing production turnaround time for polymer 3D printing applications.
Powder Management System
Integrated with powder recycling, sieving, and mixing, the PMS system improves the 3D printing polymer workflow, enabling faster, more efficient production.
7-Powder Delivery Unit
The Powder Delivery Unit streamlines the powder handling process, ensuring smooth and efficient delivery to the SLS 3D printer for optimal 3D printing nylon and 3D printing TPU results.

Farsoon 403P Series Industrial 3D printer Advantages

Production-ready Open Platform System

Industrial-scale build envelope up to 15.7 x 15.7 x 21.2 in / 400 x 400 x 540 mm

Powerful 100-watt CO₂ laser enable high productivity

Accuracy

The 4Q3P series’ powerful eight-zone heater & intelligent thermal control systems allow for besbin-class temperature regulation enabling less deformation and increased accuracy in final parts.

High-temperature

The 4Q3P series is offered in a high-temperature capable configuration up to 2 2 0 T . Enhanced temperature shielding, laser power and thermal controls enable the HT403P to process high- performance materials, such as PA6״ for highly functional, direct end-use applications.

Efficiency

Combining high-precision dynamic focusing capability, scan speed of up to 15.2 m/s, with a high efficiency roller system and convenient removable powder cartridge system, the 403P offers increased productivity, manufacturing turn-over rates and lower price per part.

Open Platform

Farsoon is the first laser sintering system producer that allows for complete freedom of operation of its machines. This means that machine parameters and powder choice are unlocked for the user allowing for previously impossible levels of freedom and flexibility when it comes to PLS production.

Industrial Applications with 403P Series

Farsoon’s 403P series is engineered to do the job and to be productive, economy, and reliable. With the expanded build envelope, high-temperature capability and the flexibility with material choice, 403P Series has been the perfect choice for rapid prototyping and small batch end-use part manufacturing amongst many production-oriented customers.

MANN + HUMMEL Intake Pipe for Passenger Vehicle Engine System

Machine: HS403P
Material: FS3300PA (PA12)
Size: 600 x 156 x 72 mm
Build Time: 18 hours including 3D printing & assembly

This intake pipe part required a fast design iteration for functional testing by the customer. Features a large size of 600mm (23.6 inches) with a new customized locking mechanism design, the functional prototyping part is able to be 3D printed in one single day, and shows excellent strength, good resistance under temperature, humidity and chemical corrosion conditions. Compared to the traditional process, the 403P produced part also helped saving investment in toolmaking while significantly reduced lead time.

FAW-Volkswagen Bumper Guide Brackets

Machine: HT403P
Material: FS3300PA (PA12)
Build Time: 14 Hours for 30 pieces

The brackets for bumper guides required a small batch of 30 pieces for functional testing, this quantity is challenging using silicone molds due to the complicated process of manufacturing, time consumed, and high cost of tool-making and manual labor. Compared to traditional silicon molding, the plastic laser sintering process achieved design to physical part time of only 14 hours compared to 78 hours, and a total of 72% production cost saving, of which the labor cost decreased from 1000 USD to only 60 USD.

Rhosoon Vehicle Antenna System

Machine: SS403P
Material: FS3300PA (PA12)
Size: 80 mm Diameter each
Build Time: 48 pieces produced in 48 hours

The Luneburg lens design features a multi-layered structure within an extreme compacted volume, with varied layer thickness and many detailed features to offer different electromagnetic wave refraction by each layer. Using Farsoon 3D printing technology Rhosoon is able to significantly reduce design-to-market time, and simplify the manufacturing process by additively producing the complex antennas structure with fine detail resolution and quality control. It also enables Rhosoon to develop highly customized 3D printed antennas designs to best suit each application’s needs.

403P Series Technical Data

Technical Data	HT403P
External Dimensions （L×W×H）	2540×1320×2220 mm (100.0×52.0×87.4 in)
Build Cylinder Size¹（L×W×H）	400×400×450 mm ( 15.7×15.7×17.7 in ) or 400×400×540 mm ( 15.7×15.7×21.3 in )
Net Weight	Approx. 3100 KG ( 6834.3 lb )
Laser Type	CO₂ Laser, 1×100W
Scanner	High-precision three-axis digital galvo system
Scanning Speed	Max. 15.2 m/s ( 49.9 ft/s )
Max. Chamber Temperature	220°C ( 428 ℉ )

Technical Data	SS403P
External Dimensions （L×W×H）	2540×1320×2220 mm (100.0×52.0×87.4 in)
Build Cylinder Size¹（L×W×H）	400×400×450 mm ( 15.7×15.7×17.7 in ) or 400×400×540 mm ( 15.7×15.7×21.3 in )
Net Weight	Approx. 3100 KG ( 6834.3 lb )
Laser Type	CO₂ Laser, 1×100W
Scanner	High-precision three-axis digital galvo system
Scanning Speed	Max. 15.2 m/s ( 49.9 ft/s )
Max. Chamber Temperature	190°C ( 374 ℉ )

Technical Data	HS403P
External Dimensions （L×W×H）	2540×1320×2220 mm (100.0×52.0×87.4 in)
Build Cylinder Size¹（L×W×H）	400×400×450 mm ( 15.7×15.7×17.7 in ) or 400×400×540 mm ( 15.7×15.7×21.3 in )
Net Weight	Approx. 3100 KG ( 6834.3 lb )
Laser Type	CO₂ Laser, 1×55W
Scanner	High-precision three-axis galvo system
Scanning Speed	Max. 10 m/s ( 32.8 ft/s )
Max. Chamber Temperature	190°C ( 374 ℉ )

1 The functional build volume depends on the parts/materials.

The post Farsoon 403P Series: Advanced SLS 3D Printer for Polymer, Nylon, and TPU Printing appeared first on Dev.

Farsoon HT1001P-2 SLS 3D Printer: High-Precision Polymer Manufacturing

Sat, 03 Sep 2022 18:39:08 +0000

Introducing CAMS: Continuous Additive Manufacturing Solution
CAMS is designed to revolutionize the additive manufacturing industry by enabling continuous production and aligning with Industry 4.0 models. This solution offers vertical scalability and modularity, ideal for integration into any industrial manufacturing environment.

Discover HT1001P-2 System

Cartridge Transportation Cart

Used for loading and extracting the build cartridge from the HT1001P-2 SLS 3D printer, ensuring stable movement during transitions.
Loading Station

Located on the left side of the system, it utilizes an electric door and semi-automated conveyor for precise build cartridge loading.
Build Station

The build Station module is where the sintering process takes place. Once the build cartridge is in place, the build packet files would be loaded into Farsoon’s BuildStar^TM operating software, then the build process begins.
Cooling Station

Upon build completion, the build cartridge is conveyed to cooling station where it will be allowed to cool under an inert atmosphere to control oxidation and part stability. The conveniently located control panel allows the user to program the cool-down environment to their specifications, as well controlling movement on the conveyor.
Powder Delivery System

The powder is delivered by a highly efficient top-feed and roller-based recoating system and the parts are fused using a fully digital multi-laser / multi-scanning system that offers tremendous productivity.
Breakout Station

The build cartridge is moved to breakout station via the conveyor system. The Breakout Station is fully enclosed and is accessed through multiple glove boxes on the front and back of the station allows the capability of multiple operators while retaining a clean working environment. The built-in air-guns allow for gentle powder removal and detailed cleaning.
Vacuum Cleaner

The Breakout Station features a vacuum hose which allows the user to gently remove excess powder. The excess powder can then be recycled or discarded.

Farsoon HT1001P-2 CAMS System Advantages

Innovative Continuous

Additive Manufacturing Solution Concept

Extensive build envelope

of 39.3 x 19.6 x 17.7 in / 1000 x 500 x 450 mm

Two powerful

100-watt CO₂ lasers enable high productivity

Designed for Production

The HT1001P-2 CAMS system is built for continuous batch production with minimal downtime. It features an efficient powder handling system, a multi-laser scanning setup, and scalable design for industrial applications.

Enhanced capabilities

With a build chamber temperature of up to 220°C, the HT1001P-2 can process high-performance materials like PA6 and PAI2, opening new possibilities for polymer 3D printing, including nylon 3D printing and polypropylene 3D printing.

Open & Modular

The HT1001P-2 is fully open, offering customizable parameters and an open material model, ensuring compatibility with future enhancements and seamless integration into existing production lines.

Powder management

The HT1001 P 2 ־ has also been designed with a comprehensive powder handling system featuring a closed loop powder system with increased automation and little need for operator interaction with the powder supply. With the HT1001P-2 the additive industry is ready to take the next steps towards true manufacturing.

Industrial Applications with HT1001P-2

With the industrial scale build size and enhanced production capability, CAMS HT1001P-2 offers many new opportunities for the next level plastic AM production: over-sized end-use piece can be produced in one-piece without the need for assembly; large-volume series production can be operated in faster turn-over rates for a significant lower price per part.

SAPW HAVC Housing

Machine: HT1001P-2
Material: FS3300PA (PA12)
Size: 950 x 423 x 207 mm
Build Time: 10 Hours

Farsoon Technologies in collaboration with automotive partner SAPW has printed a single-piece polymer automotive HVAC (Heating Ventilating Air Conditioning) unit on the HT1001P-2 CAMS system. Compared to the traditional process including CNC and Silicone Molding, the additively manufactured HVAC features structural integration, improved performance, accelerated development cycle, and reduced manufacturing cost.

Static Firing Skirt on Long March-5 Rocket

Machine: HT1001P-2
Material: FS3300PA (PA12)
Size: 370 x 100 x 125 mm each
Build Time: 50 pieces produced in 48 hours

Scientists designed the optimized static firing skirt per operating conditions and manufactured the end-use parts using Farsoon HT1001P-2 laser sintering technology and high performance FS3300PA material. Assembled to a 5000mm-diameter cylinder structure, the additively produced static firing skirt features excellent strength and toughness, ease of assembly, good post-processability for water-proofing and salt spray to assess the extreme atmospheric corrosion resistance.

Qualcomm Automotive Grille

Machine: HT1001P-2;

Material: FS3300PA (PA12)
Size: 900 x 370 x 160 mm;

Build Time: 10 hours

This oversized front grille designed by Chongqing Qualcomm Automotive Group measures 900mm in length and featured many detailed structures with thin wall-thickness. Manufacturing with conventional machining process or standard sized SLS platform will require production in several pieces, assembly and polishing; which can cause issues including overall strength and structural integrity. Now at Farsoon, the front Grille can be produced with HT1001P-2 system in one single piece.

HT1001P-2 Technical Data

External Dimensions （L×W×H）	4290×2375×2185 mm (Full module) (168.9×93.5×86.0 in), 2740×2375×2185 mm (Build Station only) (107.9×93.5×86.0 in)
Build Cylinder Size¹（L×W×H）	1000×500×450 mm ( 39.4×19.7×17.7 in )
Net Weight	Approx. 5000 KG (11023.1 lb) (Full module) / 3500KG (7716.2 lb) (Build Station only)
Laser Type	Dual CO₂ laser, 2×100W
Scanner	High-precision three-axis digital galvo system
Scanning Speed	Max. 15.2 m/s ( 49.9 ft/s )
Max. Chamber Temperature	220°C ( 428℉ )

1 The functional build volume depends on the parts/materials.

The post Farsoon HT1001P-2 SLS 3D Printer: High-Precision Polymer Manufacturing appeared first on Dev.

Plastic Powder – Dev

Farsoon FLIGHT® HT1001P: Advanced High-Temperature SLS 3D Printer for Polymer Printing

FLIGHT® HT1001P Technical Data

Kings P440 SLS 3D Printer: Selective Laser Sintering for Industrial Applications

main features

High-speed Laser Sintering

External powder cylinder Supply

Dual-scraper two-way intelligent powder supply

self developed software

self developed materials

STREGHT

CUSTOMIZED SOFTWARE

FAST SPEED PRINTING

INDUSTRIAL APPLICATIONS

INDUSTRIAL APPLICATIONS

Farsoon eForm: Advanced SLS 3D Printer for Precision Polymer 3D Printing

The PMS system can also be paired with a mobile Powder Delivery Unit (PDU) which transports the prepared powder directly to the printers. Once there the PDU’s integrated pump transfers the powder into the printer’s powder feed cartridge.

Farsoon eForm Industrial Plastic Sintering Machine Advantages

Industrial Applications of the eForm 3D Printer for Nylon, PEEK, and TPU

Guide for DDH Surgery

eForm Technical Data

Farsoon Flight® 403P-2 Series – Advanced SLS 3D Printer for Industrial Applications

FIBER

FAST

DUAL-LASER CONFIGURATION

FIBER

DUAL-LASER CONFIGURATION

OPEN PLATFORM

FAST

Industrial Applications with FLIGHT® 403P-2 Series

Farsoon 252P Series: Industry-Leading SLS 3D Printer for Nylon, PEEK, and TPU

Farsoon 252P Series Industrial 3D Printer Advantages

Industry Applications Using Farsoon 252P Series

252P Series Technical Data

Farsoon Flight® 252P Series: High-Performance SLS 3D Printing for Polymers

Farsoon Flight® 252P Series Industrial 3D printer Advantages

Industrial Applications with Flight® 252P Series

FLIGHT® 252P Series Technical Data

Farsoon Flight® 403P Series: Advanced SLS 3D Printer for High-Performance Polymer Materials

Farsoon Flight® 403P Series Industrial 3D printer Advantages

Industrial Applications with Flight® 403P Series

FLIGHT® 403P Series Technical Data

Farsoon 403P Series: Advanced SLS 3D Printer for Polymer, Nylon, and TPU Printing

Farsoon 403P Series Industrial 3D printer Advantages

403P Series Technical Data

Farsoon HT1001P-2 SLS 3D Printer: High-Precision Polymer Manufacturing

Farsoon HT1001P-2 CAMS System Advantages

HT1001P-2 Technical Data