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Advanced Manufacturing for
Bio-Inspired Materials and Structures
Chuck Zhang
School of Industrial & Systems Engineering
and Georgia Tech Manufacturing Institute
March 25, 2015
Advanced Manufacturing Research at
Georgia Tech Manufacturing Institute
• Development of Multifunctional Composites/Nanocomposites
• Scalable Nanomanufacturing
• ICME-based Process Modeling, Monitoring and Control for
High Quality and Repeatable Additive Manufacturing
• Additive Manufacturing/Printed Electronics for Smart
Materials with Advanced Sensing
• Integration of 3D Printing and Printed Electronics
• Additive Manufacturing for Medical Applications
• Additive Manufacturing for Bio-Inspired Materials and
Structures
The information presented herein cannot be duplicated
or extracted without permission from GTMI
Realization or Fabrication of BioInspired Materials and Structures
• Fabrication with conventional manufacturing
processes
• Synthesis using special processes (e.g. bio or
chemical (auxetic foams))
• Assembly of components
• Typical Challenge:
• Complex structure, impossible or hard to manufacture
• Difficult to achieve uniform structures
• New Manufacturing Paradigm:
• Additive Manufacturing (3D Printing)
The information presented herein cannot be duplicated
or extracted without permission from GTMI
Multi-Material 3D Printing with
Jetted Photopolymer Printing
Stratasys Connex® 350
Multi-Material 3D Printer
at GTMI
GTMI’s Printed Electronics
Manufacturing Capabilities
• Optomec Aerosol Jet® Printing (AJP) system with high resolution printing
(~10µm printed line width and nanoscale (50-100nm) thickness)
• Characterization tools for materials and printed devices
• Printed electronics prototypes fabricated at GTMI with the AJP system:
strain, temperature and gas sensors, pressure sensors and actuators, organic
transistors, RFID tag, high frequency antenna, and energy storage devices
Thermal conductivity
measurement
Optomec AJP 300
PE System at GTMI
Surface profiler
The information presented herein cannot be duplicated
or extracted without permission from GTMI
Electrical conductivity
measurement
AJP Can Work with a Wide Range of Ink
and Substrate Materials
Inks
Metal NP
CNT
Graphite
CNT-Silver NP
Polyimide
Substrates
Polyimide
(Flexible Films)
Carbon Fiber Prepreg
(Composites)
3D Flexible
Surface
Coated Surface
The information presented herein cannot be duplicated
or extracted without permission from GTMI
3D Printed
Part
Prototypes/Samples Printed at GTMI
Strain sensor array printed
with silver ink
Temperature sensor printed
with carbon nanotubes
Interconnects linked with IC
chip pins
RFID tag on silicone
RFID tag and antenna array
on carbon fiber prepreg
High frequency antenna
The information presented herein cannot be duplicated
or extracted without permission from GTMI
Bio-Inspiration: Auxetic Structure
Salamander skin
Auxetic structure
The information presented herein cannot be duplicated
or extracted without permission from GTMI
Fabrication of Auxetic Structures
with Multi-Material 3D Printing
3D printed auxetic structure samples
Volume change: ~-30% (compression) to 20% (stretch)
FEA results indicated a 24%
volume change with the additive
manufactured auxetic structure The information presented herein cannot be duplicated
or extracted without permission from GTMI
Bio-Inspired Heat-Dissipation
Structure
Natural structure of blood vein
Fractural branches achieve minimum energy expenditure by following the Murray’s Law:
BID heat
spreader
prototype
The information presented herein cannot be duplicated
or extracted without permission from GTMI
Bio-inspired
hear spreader
design
Applications of Bio-Inspired
Materials and Structures
Pressure
sensors
Residual limb
Thermal
electrical
Printed sensors
coolers
(temperature
and moisture)
TABS-liner
(Temperature management,
Anti-pistoning, Biocide and Sensing)
Hydrogel
Phase change
material
Auxetic
structure
Hear spreader
Carbon fiber
composites
Electronic
modules
Sponsored by the Department of Veterans
Affairs Innovation Initiative (VAi2)
The information presented herein cannot be duplicated
or extracted without permission from GTMI
Ongoing and Planned Research
• Adding sensing functions/intelligence to bioinspired materials and structures with AJP process
• Demonstrate more complex bio-inspired structures
with modified AJP process
• Development of stretchable sensors for bio-inspired
applications
• Scalable manufacturing of bio-inspired materials
and structures
The information presented herein cannot be duplicated
or extracted without permission from GTMI
Questions & Comments
Thanks!
Chuck Zhang
Tel: (404) 894-3280
Email: [email protected]