Multi-material light-curing 4D printing-BMF Precision Tech Inc.

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microCube M150

1–3 types

Number of material printed simultaneously

25μm

Optical resolution

Φ42mm/Φ56mm

Print platform diameter

Features

Technical Principles

Technical Principles

Centrifugal multi-material switching technology
Centrifugal speed

Centrifugal speed

Up to 10,000 RPM
Independently developed slicing software

Independently developed slicing software

Up to 500 layers per minute
High-Performance Functional Materials

High-Performance Functional Materials

Viscosity in the range of 5 to 5,000 cps
Molded in one piece

Molded in one piece

Multi-material, multi-functional coupling structure

Technical Principles

Centrifugal multi-material switching technology

Centrifugal speed

Up to 10,000 RPM

Independently developed slicing software

Up to 500 layers per minute

High-Performance Functional Materials

Viscosity in the range of 5 to 5,000 cps

Molded in one piece

Multi-material, multi-functional coupling structure

Specifications

Number of material printed simultaneously

1–3 types
Light source

UV LED(405 nm)
Printing material

Shape-memory polymers, conductive elastomers, elastomers, hydrogels, and rigid resins, etc.
Optical resolution

25μm
Z-axis resolution

±2μm
Printing mode

Intra-layer/Intra-layer multimaterial
Maximum centrifugal speed

10000rpm
Print platform diameter

Φ42mm/Φ56mm
Build size height

30mm
Printer dimension

950mm(L)×650mm(W)×700mm(H)
Printer weight

100KG

Applications

01 Shell-like/lobster claw structure

Overall dimension: 25×25×3–5 mm³
Printing materials: Rigid resin + elastomer
Structural features: Alternating layers of rigid and elastomer materials provide reinforcement and toughening
Applications: Bionics
02 Origami Structure

Structural parameters: 25×25×0.6 mm³
Printing materials: Rigid resin + shape-memory polymer
Structural features: Rigid panels combined with shape-memory polymer hinges, enabling shape reconfiguration through thermal programming
Application areas: 4D printing, foldable structures
03 Multi-material laminated structure

Structural parameters: 25×25×2 mm³
Printing materials: Conventional hydrogel + thermosensitive hydrogel
Structural features: Conventional hydrogel combined with thermosensitive hydrogel; structural deformation achieved through the phase transition of the thermosensitive hydrogel
Application areas: 4D printing, sensors
04 Flexible circuits

Structural parameters: 30×30×0.5 mm³
Printing materials: Elastomer + conductive elastomer
Structural features: A wearable flexible electronic device realized by combining an elastomer substrate with a conductive elastomer circuit
Application areas: Flexible electronics, sensors

Shell-like/lobster claw structure

Overall dimension: 25×25×3–5 mm³
Printing materials: Rigid resin + elastomer
Structural features: Alternating layers of rigid and elastomer materials provide reinforcement and toughening
Applications: Bionics

Origami Structure

Structural parameters: 25×25×0.6 mm³
Printing materials: Rigid resin + shape-memory polymer
Structural features: Rigid panels combined with shape-memory polymer hinges, enabling shape reconfiguration through thermal programming
Application areas: 4D printing, foldable structures

Multi-material laminated structure

Structural parameters: 25×25×2 mm³
Printing materials: Conventional hydrogel + thermosensitive hydrogel
Structural features: Conventional hydrogel combined with thermosensitive hydrogel; structural deformation achieved through the phase transition of the thermosensitive hydrogel
Application areas: 4D printing, sensors

Flexible circuits

Structural parameters: 30×30×0.5 mm³
Printing materials: Elastomer + conductive elastomer
Structural features: A wearable flexible electronic device realized by combining an elastomer substrate with a conductive elastomer circuit
Application areas: Flexible electronics, sensors

Download manual

Multi-Material 4D Printing System: M150

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