nanoArch InP140
nanoArch™ is the first commercialized high resolution, multi-material 3D micro-fabrication equipment based on PμSL (Projection Micro Stereolithography) technology, which is designed for the research and development of functional composite materials.
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UV-LED(405nm) Light Source |
acrylic/polyurethane acrylic/polyester acrylic/ |
10μm Exposure Resolution |
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10~40μm XY printing Resolution |
10~40μm Layer Thinkness |
19.2mm*10.8mm*45mm Printing Range |
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10mm in typical 45mm in Max Printing Height |
142~569mm³/h Printing Speed |
STL Input Data File Format |
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3000w Power Supply |
1000(L)*700(W)*1600mm(H) External Dimensions |
300kg Total Weight |
Micro-scale 3D Printing System
InP140 XY printing resolution down to 10μm
Features
High resolution optical system and movement platform can be customized, with resolution down to 0.5μm.
Achieve both high resolution and large area through step-and-repeat process.
3D printed object with optical grade surface finish can be achieved through controlling the processing technology.
Real-time image monitoring, auto focus and exposure compensation.
Operation software with nanoArch graphic interface system and custom parameter setting.
Micro-scale 3D Printing System
InP140 XY printing resolution down to 10μm
Micro-scale 3D Printing System
Able to realize ultrahigh large-area printing, suitable for verification of basic theories and innovative research of
principles in higher education institutions and research centers .
References and Literature
Multiscale metallic metamaterials
X. Zheng, W. Smith, J. Jackson, B. Moran, H. Cui, D. Chen, J. Ye, N. Fang, N. Rodriguez, T. Weisgraber and C. M. Spadaccini, "Multiscale Metallic Metamaterials", Nature Materials, 15(10):1100-1106 (2016)
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REPORT Ultralight, ultrastiff mechanical metamaterials
X. Zheng, H. Lee, T. H. Weisgraber, M. Shusteff, J. DeOtte, E. B. Duoss, J. D. Kuntz, M.M. Biener, Q. Ge, J. A. Jackson, S. O. Kucheyev, N. X. Fang, C. M. Spadaccini, “Ultralight, ultrastiff mechanical metamaterials”, Science, 344(6190), 1373-1377 (2014)
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Far-Field Optical Hyperlens Magnifying Sub-Diffraction-Limited Objects
Z. Liu, H. Lee, Y. Xiong, C. Sun and X, Z hang, "Far-Field Optical Hyperlens Magnifying Sub-Diffraction-Limited Objects", Science, 315(5819):1686 (2007)
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Sub–Diffraction-Limited Optical Imaging with a Silver Superlens
N. Fang, H. Lee, C. Sun and X. Zhang, "Sub-Diffraction-Limited Optical Imaging with a Silver Superlens", Science, 308(5721), 534-537 (2005)
Read More >>After-Sales Services
Provide free operation guidance and technical consultations.
Repair repairable damaged parts, or debug malfunctions of the equipment.
BMF will respond and offer trouble-shooting solutions within 24 hours, and if necessary, send professionals to repair on site within one week.
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