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Farsoon FLIGHT® HT1001P Large-Format Fiber SLS 3D Printer – High-Temperature Polymer | 1000×500×450 mm

Large-format, high-temperature fiber-laser SLS system with a metre-scale 39.4×19.7×17.7 in / 1000×500×450 mm build. Two to four 300 W fiber lasers and a 220 °C chamber run high-performance and glass-filled polymers at production scale, with fully open parameters and a modular build-station architecture. Sold, installed and supported in the US by Additive Plus.

  • Metre-scale build — 1000×500×450 mm for large parts and high-nest batches.
  • 2–4 fiber lasers · 220 °C — high-performance, glass-filled & TPU polymers.
  • Lead time: configured to order — US install, training & validated profiles from California.
Price held 7 days after order.
Install + training included Tailored service plan
1000 mm large-format build
2–4 fiber lasers
220 °C high-temp chamber
Open parameters & powder
What your process engineer actually checks

What your process engineer actually checks

Large parts and high-temperature polymers

A 1000 × 500 × 450 mm chamber and a 220 °C bed let the HT1001P build large single parts and run glass-filled, high-performance materials that smaller or cooler machines can't. With 2–4 fiber lasers, throughput scales to the job. It's the platform when part size or material temperature is the constraint.

An applications engineer on the line

Pre-sale help with large-part orientation, warp control and material choice, post-sale troubleshooting, and a demo or sample build before you commit. We run SLS ourselves — sub-4h reply, NDA standard.

1000×500×450 mm
Build volume
2–4 × 300 W fiber
Lasers
0.06–0.30 mm
Layer thickness
220 °C
Max chamber temp
15.2 m/s
Scan speed
Modular
Build-station architecture
About this product

The Farsoon FLIGHT® HT1001P is a large-format, high-temperature fiber-laser SLS system with a metre-scale 39.4 × 19.7 × 17.7 in / 1000 × 500 × 450 mm build. Two to four 300 W fiber lasers and a 220 °C chamber run high-performance and glass-filled polymers at production scale, with fully open parameters and a modular build-station architecture. Sold, installed and supported in the US by Additive Plus.

Why production teams choose the FLIGHT® HT1001P

Large parts, high-temperature polymers and fiber-laser throughput — on an open, modular platform.

Metre-scale build volume

A 1000 × 500 × 450 mm chamber prints large single parts or high-nest batches that a 400 mm system can’t — the reason to move up to the HT1001P class.

Two to four fiber lasers

Configurable with 2×300 W or 4×300 W fiber lasers scanning in parallel — throughput scales with the number of lasers to match your production volume.

High-temperature polymers

A 220 °C chamber runs PA-F nylons, glass-filled FS6140GF-F, PU and TPU — demanding, high-performance materials for functional end-use parts.

Open, modular platform

Full parameter control via BuildStar / MakeStar®, plus a modular build-station architecture that supports higher throughput and continuous operation.

How Additive Plus delivers your FLIGHT® HT1001P

A large-format production SLS system is only as good as the team behind it — here’s how we set you up.

Step 01
Configure & qualify

We spec the laser count (2× or 4×) and material set for your parts and volumes, and help qualify the powders you plan to run on the open platform.

Step 02
Install & train

US-based installation of the module and build station, US power sorted with the supplied transformer, and operator training on BuildStar / MakeStar®.

Step 03
Validated profiles & support

Proven parameter sets for your materials, large-part DfAM guidance, and local warranty and service — a named engineer replies within 24 hours.

Materials

The FLIGHT® HT1001P runs an open range of high-performance and high-temperature SLS powders. Additive Plus helps match the material to your application and provides validated parameters for each.

Material Type Typical use
FS4200PA-F · FS3300PA-F · FS3201PA-F PA12 / high-performance nylon Large functional and end-use parts
FS3401GB-F Glass-bead nylon Stiffness and wear resistance
FS6140GF-F Glass-filled nylon High stiffness and thermal performance
WANFAB-PU95AB · TPU88A · LUVOSINT® TPU PU / TPU elastomers Flexible, rubber-like parts

More materials are being qualified; ask our engineer about a specific powder for your application.

Key specifications

Technology Selective laser sintering (SLS) · fiber laser · large format · open platform
Build volume 39.4 × 19.7 × 17.7 in / 1000 × 500 × 450 mm
Laser Fiber · 2×300 W or 4×300 W
Scanner High-precision 3-axis digital galvo · up to 15.2 m/s
Layer thickness 0.0024–0.0118 in / 0.06–0.30 mm
Max chamber temperature 220 °C (428 °F)
Atmosphere Nitrogen · multi-zone thermal control
Software BuildStar · MakeStar® (open parameters)
Machine dimensions Full module 229.1 × 93.5 × 86.0 in / 5820 × 2375 × 2185 mm · build station 116.5 × 93.5 × 86.0 in
Weight Full module ~11,023 lb / 5,000 kg · build station ~7,716 lb / 3,500 kg
Power 380–400 V, three-phase (US: transformer included)

See the Specifications tab for the full manufacturer data set.

Typical applications

Where a large-format, high-temperature SLS platform earns its place.

Large single parts
Ducts, housings and covers up to 1 m
Aerospace & UAV
Large lightweight structural parts
Automotive
Large ducting, jigs and interior parts
High-temperature parts
Glass-filled nylon for heat & stiffness
Batch production
High-nest runs across a large bed
Flexible PU / TPU
Large elastomer parts and lattices
Tell us your part size, materials and volumes — an applications engineer will confirm whether the fiber HT1001P or the CO₂ HT1001P-2 fits, share validated parameters, and arrange a demo or sample build. Sub-4h reply, NDA standard.

Why source the FLIGHT® HT1001P through Additive Plus

  • US sales, install & support. Module and build-station commissioning, US power via the supplied transformer, operator training and local warranty.
  • Open platform, properly used. We help develop and validate fiber-laser profiles for your materials and large parts.
  • Demo before you commit. Run your parts as a service or evaluate a system before purchase.
  • Large-part DfAM help. Orientation, nesting, warp control, material selection and post-processing from engineers who run SLS.
  • <24h response. 200+ qualified systems delivered across 23 countries.
Brand Farsoon Technologies
Country of origin China
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 Volume 1000×500×450 mm, 39.4×19.7×17.7 in
Weight Approx. 5000 KG ( 11023.1 lb ) (Full Module) / 3500KG (7716.2 lb) (Build Station only)
Laser Type Fiber Laser, 2×300W, Fiber Laser, 4×300W
Scanner High-precision three-axis digital galvo system
Layer Thickness 0.06~0.3 mm ( 0.0024-0.0118 in )
Scanning Speed Max. 15.2 m/s (49.9 ft/s)
Max. Chamber Temperature 220°C ( 428℉ )
Thermal Field Control Multi-zone heater & Intelligent temperature control systems
Temperature Regulation Continuous real-time build surface temperature monitoring & optimization
Operating System 64 bit Windows 10
Comprehensive Software BuildStar, MakeStar®
Data File Format STL
Key Software Features Open machine key parameters, Real-time build parameter modification, Three-dimensional visualization, Diagnostic functions
Inert Gas Protection Nitrogen
Power Supply EUR/China: 380-400V, 50/60Hz, three-phase US: transformer sold with machine
Operating Ambient Temperature 22-28°C ( 71.6-82.4℉ )
Build Materials FS4200PA-F, FS3300PA-F, FS3201PA-F, FS3401GB-F, FS6140GF-F, WANFAB-PU95AB, Ultrasint@ TPU88A black, LUVOSINT® TPU X92A-1064 WT, more materials to come
Technology SLS
Printing Materials Plastic Nylon Powders

Product videos

Want proof before you commit?

Send us your large part and target material — we'll build it on our Farsoon SLS so you can hold the result before you buy a system.

From teams running the FLIGHT® HT1001P

Unedited feedback from production and R&D leads.

★★★★★ 4.9 / 5 · 24 reviews
★★★★★

We print ducting in one piece now instead of bonding sections — the metre-long bed changed how we design.

GM
G. Muller Design Lead · Aerospace
★★★★★

The 220 °C chamber let us qualify a glass-filled grade our old machine couldn't run — stiffness we needed.

RB
R. Bianchi Materials Engineer · Industrial Manufacturing
★★★★★

Additive Plus helped us control warp on a big flat part — their large-part DfAM advice saved weeks.

KS
K. Sorensen Production Engineer · Automotive

Common questions

Don't see yours? Email [email protected] — NDA standard, typical reply within 4 hours.

What size parts can the FLIGHT® HT1001P build?
The Farsoon FLIGHT® HT1001P has a 1000 × 500 × 450 mm (39.4 × 19.7 × 17.7 in) build volume — a metre in its longest axis. That lets it print large single parts such as ducts, covers and structural components, or nest large batches of smaller parts across the bed. It is the reason teams move up from a 400 mm-class system to the HT1001P.
How many lasers does it have and how does that affect throughput?
The FLIGHT® HT1001P is configured with two or four 300 W fiber lasers that scan in parallel, with scan speeds to 15.2 m/s. More lasers mean higher throughput across the large bed, so the four-laser configuration suits higher-volume production. Additive Plus helps you pick the laser count based on your part mix and volume during quoting.
What is the difference between the fiber HT1001P and the CO₂ HT1001P-2?
Both share the 1000 × 500 × 450 mm large-format build and 220 °C chamber. The FLIGHT® HT1001P uses 2–4 fiber lasers for finer detail and scalable throughput, while the HT1001P-2 uses dual CO₂ lasers and reaches up to 15 L/h. Fiber suits finer features and high-performance materials; CO₂ is a proven, cost-effective route to high throughput. Additive Plus can compare them for your parts.
What materials can the FLIGHT® HT1001P run?
The HT1001P runs PA nylons (FS4200PA-F, FS3300PA-F, FS3201PA-F), glass-bead and glass-filled nylon (FS3401GB-F, FS6140GF-F) and PU/TPU elastomers (WANFAB-PU95AB, TPU88A, LUVOSINT® TPU). The 220 °C chamber supports higher-temperature and glass-filled grades. More materials are being qualified, and because the platform is open, other powders can be run — ask our engineer.
Is the FLIGHT® HT1001P an open or closed material system?
The FLIGHT® HT1001P is a fully open platform. You control laser, scan and thermal parameters through BuildStar and MakeStar®, and you are not locked to a single vendor's powder. Additive Plus helps you develop and validate parameters for each material and large-part geometry, so the open platform delivers repeatable results at scale.
What is the modular architecture and how much space does it need?
The FLIGHT® HT1001P is modular: the build station can operate on its own (2960 × 2375 × 2185 mm, ~3,500 kg) or as part of a full module (5820 × 2375 × 2185 mm, ~5,000 kg) that supports higher throughput and more continuous operation. Additive Plus reviews your facility during installation planning so space, power and material handling are ready for the configuration you choose.
What power and support does the FLIGHT® HT1001P need?
The FLIGHT® HT1001P runs on 380–400 V three-phase power; for US sites it ships with the required transformer and needs a 22–28 °C ambient environment. As the US partner, Additive Plus handles module and build-station installation, operator training and local warranty service, with a named engineer replying within 24 hours.

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