July 29, 2014 |
Time Contribution |
Tyler |
Work - R&D mechanics |
4.50 HR |
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Experimented making PDMS replicas from 3d printed moulds.
Updated R&D document.
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3D printed molds for PDMS-based microfluidics tests on neurons
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R&D report: R&D report - 3D printed molds for PDMS-based microfluidics tests on neurons
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July 9, 2014 |
Time Contribution |
Tyler |
Work - R&D mechanics |
16.00 HR |
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Adapted microfluidic device geometry to be used with the b9creator. This involved redesigning the channels to avoid curves and to ensure a minimum feature size of 200 microns. After the designs were made, I rendered them into 3D models, and exported them as .stl files. To check the fidelity of the files, I then double-checked that they open correctly in SketchUp.
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3D printed molds for PDMS-based microfluidics tests on neurons
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R&D report: R&D report - 3D printed molds for PDMS-based microfluidics tests on neurons
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July 3, 2014 |
Time Contribution |
Tibi |
Work - Documenting |
0.75 HR |
Open
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Created R&D doc for Tylor's project
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Oct. 22, 2013 |
Time Contribution |
Tibi |
Work - Technician experimental |
7.02 HR |
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Microfluidic Chip
Open main document
https://docs.google.com/document/d/1WBG1w-U90niLxVA-GlOR4WeIW7ef9x9nZD9nClXwl0E/edit
OCT 17-18, 2013
Firsts tests using 3D printing for microfluidic chip prototyping and fabrication.
Next time I need to continue the thermal annealing experiment, go beyond 150C.
We also need to test other designs with better sceals.
OCT 22, 2013
Thermal post-treatment of the polymer 3D printed part. Temp. set at 160C.
I also successfully transferred a micropattern from Spot-e to PCL
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Explore use of 3D printing in microfluidics
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R&D report: Exploring 3D printing for prototyping microfluidics
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Oct. 21, 2013 |
Time Contribution |
Tibi |
Work - Technician experimental |
8.50 HR |
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Microfluidic Chip
OCT 17-18, 2013
Firsts tests using 3D printing for microfluidic chip prototyping and fabrication.
Open document
https://docs.google.com/document/d/1WBG1w-U90niLxVA-GlOR4WeIW7ef9x9nZD9nClXwl0E/edit
Next time I need to continue the thermal annealing experiment, go beyond 150C.
We also need to test other designs with better sceals.
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Explore use of 3D printing in microfluidics
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R&D report: Exploring 3D printing for prototyping microfluidics
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Oct. 18, 2013 |
Time Contribution |
Tibi |
Work - Documenting |
3.00 HR |
Open
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documentation and communication of the first 3D printed microfluidic chip made in our lab, by SENSORICA.
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