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microArch® S140

Photosensitive resin

Print materials

10μm

Optical resolution

94mm(L)×52mm(W)×45mm(H)

Maximum build size

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Features
  • Ultra-high precision

    Ultra-high precision

    XY printing resolution: 10 μm

  • Thick at the bottom

    Thick at the bottom

    10~40μm

  • Cross-scale

    Cross-scale

    Macro-micro integrated machining

  • Stability

    Stability

    High-quality light source stability

  • Auto focusing

    Auto focusing

    Optical monitoring system

  • Support scientific research

    Support scientific research

    Assisting 100+published papers in top journals

  • New Materials

    New Materials

    Suitable for new materials R&D

Ultra-high precision

XY printing resolution: 10 μm

Thick at the bottom

10~40μm

Cross-scale

Macro-micro integrated machining

Stability

High-quality light source stability

Auto focusing

Optical monitoring system

Support scientific research

Assisting 100+published papers in top journals

New Materials

Suitable for new materials R&D

Specifications

  • Light source

    UV-LED(405nm)

  • Print materials

    Photosensitive resin

  • Optical resolution

    10μm

  • Layer thickness

    10~40μm

  • Build size

    Mode 1: Single exposure mode: 19.2mm(L)×10.8mm(W)×45mm(H) Mode 2: Stitching exposure mode:94mm(L)×52mm(W)×45mm(H) Mode 3: Micro array mode: 94mm(L)×52mm(W)×45mm(H)

  • File format

    STL

  • Printer dimensions

    650mm(L)×650mm(W)×750mm(H)

  • Printer weight

    245kg

  • Power demand

    220~240V AC,50/60HZ,2KW

  • Maximum build size

    94mm(L)×52mm(W)×45mm(H)

Applications

  • 01 Compound eye

    Application: Bionics
    Dimensions: 5×5×2.5 mm³, hemispherical shell radius 10 mm
    Structural Features: Hemispherical photodetector substrate array structure characterized by thin walls and dense microporosity

  • 02 Multifunctional Gel Sensor

    Application: Sensing
    Dimensions: 2x2x2 mm³
    Structural Features: The hollow channel structure amplifies ultrasonic signals

  • 03 Dual-gradient surface microneedle array

    Application Areas: Mechanics
    Dimensions: Microneedle base 300 μm, length 800 μm, microneedle spacing 300 μm
    Technical Support: PµSL features flexible and adjustable parameters, enabling the integrated fabrication of various surface structures. Combined with superhydrophobic surface treatment, it offers new insights into the study of droplet bouncing phenomena and facilitates the large-scale manufacturing of surface structures that enable rapid droplet rebound. It is applicable in fields such as anti-icing, droplet condensation, and self-cleaning surfaces.

  • 04 Three-cycle minimal surface structural scaffold

    Application: Biomedical
    Printing Material: Hydrogel
    Dimensions: 6 × 6 × 2 mm³, minimum pore diameter of interconnected pores: 100 μm
    Structural Features: Composed of smooth, continuous surfaces containing multiple interconnected pores

Compound eye

Application: Bionics
Dimensions: 5×5×2.5 mm³, hemispherical shell radius 10 mm
Structural Features: Hemispherical photodetector substrate array structure characterized by thin walls and dense microporosity

Multifunctional Gel Sensor

Application: Sensing
Dimensions: 2x2x2 mm³
Structural Features: The hollow channel structure amplifies ultrasonic signals

Dual-gradient surface microneedle array

Application Areas: Mechanics
Dimensions: Microneedle base 300 μm, length 800 μm, microneedle spacing 300 μm
Technical Support: PµSL features flexible and adjustable parameters, enabling the integrated fabrication of various surface structures. Combined with superhydrophobic surface treatment, it offers new insights into the study of droplet bouncing phenomena and facilitates the large-scale manufacturing of surface structures that enable rapid droplet rebound. It is applicable in fields such as anti-icing, droplet condensation, and self-cleaning surfaces.

Three-cycle minimal surface structural scaffold

Application: Biomedical
Printing Material: Hydrogel
Dimensions: 6 × 6 × 2 mm³, minimum pore diameter of interconnected pores: 100 μm
Structural Features: Composed of smooth, continuous surfaces containing multiple interconnected pores

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  • Tel

    +86-755-26600689

  • E-mail

    bmf@bmftec.cn

  • Address

    Floor 5, Building 26, Hongshan 6979 Business Center, Longhua District Shenzhen City, Guangdong Province, China 518129

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