HT1001P-2
HT1001P-2
a CAMS System
The Largest Plastic Laser Powder Bed Fusion System with Continuous Production Capacity.
Introducing CAMS
CAMS – Continuous Additive Manufacturing Solution, is developed to address the growing movement of the additive industry into true manufacturing as well as future models of production such as Industry 4.0. The CAMS vision is to offer continuous AM production through vertical scalability and modularization capable of integrating into any industrial manufacturing facility.
Industrial Applications with HT1001P-2
SAPW HAVC Housing
- Machine: HT1001P-2
- Material: FS3300PA (PA12)
- Size: 950 x 423 x 207 mm
- Build Time: 10 Hours
Schraffur 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 Schraffur 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.
Static Firing Skirt on Long March-5 Rocket
- 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 Schraffur, the front Grille can be produced with HT1001P-2 system in one single piece; it helps improving manufacturing efficiency and mechanical strength.
HT1001P-2 Technical Data
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TECHNICAL DATA
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HT1001P-2
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External Dimensions (L×W×H)
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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) |
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Build Cylinder Size1(L×W×H)
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1000×500×450 mm ( 39.4×19.7×17.7 in )
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Net Weight
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Approx. 5000 KG ( 11023.1 lb ) (Full Module) / 3500KG ( 7716.2 lb ) (Build Station only)
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Laser Type
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Dual CO2 laser, 2×100W
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Scanner
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High-precision three-axis digital galvo system
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Layer Thickness
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0.06~0.3 mm ( 0.0024-0.0118 in)
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Scanning Speed
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Max. 20 m/s (66 ft/s)
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Max. Chamber Temperature
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220°C ( 428℉ )
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Thermal Field Control
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Multi-zone heater & Intelligent temperature control systems
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Temperature Regulation
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Continuous real-time build surface temperature monitoring & optimization
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Operating System
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64 bit Windows 10
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Comprehensive Software
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BuildStar, MakeStar®
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Data File Format
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STL
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Key Software Features
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Open machine key parameters, real-time build parameter modification, three-dimensional visualization, diagnostic functions
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Inert Gas Protection
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Nitrogen
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Power Supply
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EUR/China: 400V±10%, 3~/N/PE, 50/60Hz, 50A
US: transformer sold with machine |
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Operating Ambient Temperature
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22-28°C ( 71.6-82.4℉ )
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Materials2
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FS3300PA, FS3401GB, FS4100PA, FS3150CF, FS3250MF, WANFAB-PU95AB, Ultrasint® TPU 88A black, FS1092A-TPU*, FS1088A-TPU*, Ultrasint® PP GB X01, more materials to come
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