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This project is been developed by
[Paloma Gonzalez](http://palomagr.mit.edu/index.html) and
[José Tomás Domínguez](https://www.arauco.cl) in a collaboration of
Arauco and [UTFSM Fablab](https://www.fablabs.io/labs/fablabutfsm) and [MIT CBA](http://cba.mit.edu/).
COVID-19 has generated a global demand for face masks that our supply chains haven't been able to satisfy. Therefore, there is a huge need to create new materials and manufacturing methods to fabricate face masks and filters. We are working on a wood pulp filter that protects from Covid - 19, and could potentially be produced anywhere where there is a wood pulp factory. Wood pulp factories are present in most regions of the world.
Our goal is to physically modify wood pulp sheets to achieve the filtering performance of a N95 filter to produce a functional
layer for respirators / masks / PPE for the corona viruses.
[Wood pulp is the raw material for paper towels with the capacity of filtering particles of 0.3 μm.](https://smartairfilters.com/en/blog/paper-towel-effective-against-viruses-diy-mask/)
The corona virus measures approximately 0.1 μm. We can modify the compaction of the layers and/ or the size of the fibers to increase their filtering capacity / breathability.
We are also developing a face mask which filters can be exchanged,
completely out of wood pulp to be able to use our raw material.
[Our design is based on Wasp’s design](https://www.3dwasp.com/en/3d-printed-mask-from-3d-scanning/) but we are looking to work with injection molding
and/or 2 mold processes instead of 3D printing.
It is crucial to be able to mass produce the masks.
The advantage of Wasp design is that the filters are held on the inside side of the mask.
We think that this detail would help decrease the contamination of the filters when changing them.
There are also fabric masks in which these filters could work [like this one, the HKMask](url).
Key Steps:
SEM Measurements, measure the porosity of the wood pulp sheets; it must be >0.1um
Particle counting measurement, measure filtering capacity of the material, the ideal scenario will be an N95 filtering capacity.
In case the material's porosity is bigger than 0.1um or the filtering capacity isn’t enough, Arauco is going to modify their manufacturing process to get a tighter material, or we are going to test a Electrospinning machine.
Make the material Hydrophobic.
Filter Development
Wood pulp sheets have the following disadvantages:
Hydrophilic, absorbs any liquid very fast so it could have a lower life expectancy and could absorb contaminated droplets, this can be controlled through design or modifying the material properties.
Due to air flow, the user could inhale wood pulp fibers, we are adding wood pulp based fabrics to act as a filter. It’s relevant to point out that wood fibers aren’t toxic, you just can’t digest them.
FDM 3D printed masks are slow to produce and have a porosity bigger than >0.1um, we are looking to develop the plastic parts of the mask through injection molding.
We are working in a version made from wood pulp instead of 3D printing to be mass produced with compression molds similar to egg boxes.
The filter frame is still 3D printed. Our next step is to oncorporate it in the mold and make it with wood pulp.
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### Raw Material
Celulose comes in letter size sheets, 21.59 cm. X 27.94 cm with a thikness of 1mm.
<img src="images/l2_1.jpg" width="200" >
<img src="images/l2_0.jpg" width="200" >
We are also working with wood pulp based fabrics, that will act as filter of big size wood pulp fibers than could be detached from the filter due to air flow:
<img src="images/l2_2.jpg" width="400" >
### Fabricating the filter
Due to the density of the celulose raw material, we smashed it and compact into a breathable filter.
<img src="images/l1_2.jpg" width="400" >
### Assembling the mask
We are working with the face mask design by [Wasp](https://www.3dwasp.com/en/3d-printed-mask-from-3d-scanning/)
<img src="images/l3_1.jpg" width="400" >
When everything is already manufactured
<img src="images/l1_1.jpg" width="400" >
We assemble the parts:
<img src="images/l3_2.jpg" width="400" >
And get a finished face mask with a replaceable wood pulp based filter
<img src="images/l1_3.jpg" width="400" >