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Difference between revisions of "3D Printed COVID-19 PPE"

(Added packaging section)
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The following procedure has been proposed:
 
The following procedure has been proposed:
  
1. Put on gloves and eye protection. A face mask or respirator that covers your mouth and nose is also recommended. Open a window for ventilation if possible.
+
# Put on gloves and eye protection. A face mask or respirator that covers your mouth and nose is also recommended. Open a window for ventilation if possible.
2. Wash the wet area down with soap and water, then spray it with disinfectant.
+
# Wash the wet area down with soap and water, then spray it with disinfectant.
3. Spray the vacuum sealer's exterior and interior with disinfectant and dry it carefully with shop towels.
+
# Spray the vacuum sealer's exterior and interior with disinfectant and dry it carefully with shop towels.
4. Set the vacuum sealer up on the adjacent bench.
+
# Set the vacuum sealer up on the adjacent bench.
5. Prepare all the necessary sous vide bags and have them ready in the wet area.
+
# Prepare all the necessary sous vide bags and have them ready in the wet area.
6. Take a face shield and spray it all over, inside and out, with disinfectant.
+
# Take a face shield and spray it all over, inside and out, with disinfectant.
7. Use shop towels to remove any excess liquid. This is important as alcohol-based disinfectant is flammable.
+
# Use shop towels to remove any excess liquid. This is important as alcohol-based disinfectant is flammable.
8. Carefully place the shield into the bag.
+
# Carefully place the shield into the bag.
9. Move the bag to the adjacent bench and vacuum seal it.
+
# Move the bag to the adjacent bench and vacuum seal it.
10. Go back to step 6 and repeat until completed.
+
# Go back to step 6 and repeat until completed.
11. Clean the outside of the sealed bags with disinfectant before storing them.
+
# Clean the outside of the sealed bags with disinfectant before storing them.
12. Clean up, tidy up, dispose of your gloves and shop towels. Celebrate a job well done :)
+
# Clean up, tidy up, dispose of your gloves and shop towels. Celebrate a job well done :)
  
 
The disinfectant spray will likely be composed of 70% isopropyl alcohol, 5% hydrogen peroxide, and 25% water. In terms of safety, think of it like flammable bleach and treat it with care - it may bleach clothing, it is a skin irritant, and you do not want it in your eyes. Splashes or over-spray on skin can be washed away with soap and water. If in eyes flush immediately with eye wash and seek medical attention.
 
The disinfectant spray will likely be composed of 70% isopropyl alcohol, 5% hydrogen peroxide, and 25% water. In terms of safety, think of it like flammable bleach and treat it with care - it may bleach clothing, it is a skin irritant, and you do not want it in your eyes. Splashes or over-spray on skin can be washed away with soap and water. If in eyes flush immediately with eye wash and seek medical attention.

Revision as of 05:17, 28 March 2020

This page summarises the effort by members to produce and supply personal protective equipment (PPE) for NHS staff in response to the current COVID-19 situation.

NOTE: THIS PAGE HAS BEEN FILLED BASED ON CONVERSATIONS ON THE SLACK CHANNEL AND HAS YET TO BE REVIEWED, PLEASE DO NOT TAKE IT AS A SOURCE OF AUTHORITY.

The Slack channel #covid-19-ppe is being used for discussion. The channel is a NO BIKESHEDDING ZONE and should only be used for co-ordination of the manufacturing and distribution effort.

If you are able to produce face shields, please log what you can on this sheet. The sheet will also be used for organising the collection effort.

Collaboration & Points of Contact

DrGandalf on Slack is our NHS contact.

Geoff Hampson, one of the directors at Kitronik, is also on the Slack channel. He may be able to help with manufacturing.

mgoodwin is part of the co-ordination of the shield making locally, and also someone from TechNotts.

3D Print Face Shields with Acetate Sheet Front

Please note that we DO NOT yet (as of 2020-03-25) have approval from Infection Control on any specific design. For the moment it is still worth experimenting and making some parts, since every day of delay counts against us, but face shields cannot be donated until approval is obtained.

The designs we are primarily working with are as follows:

A4 Binding Sheet Face Shield

We have successful prints of this already. Our contact at the NHS has asked specifically for this design.

Members are currently printing 3 different versions of this headband:

Design / File Approx. Print time Approx. Filament used Image Details
The original design 60 - 90 Minutes 10g
Original design.jpg
This is the original design of the A4 Binding Sheet Face Shield and is the version which we have originally been asked to produce, and is therefore the preferred version.

If your 3d printer is capable of printing this version quickly and reliably then please use this version.

The adapted design 60 - 90 Minutes 10g
Adapted design
This design is the same as the above with two very small but important changes: the walls are double the thickness and the hexagonal holes have been removed.

This design will print well on lower quality, less functional 3d printers.

The altered design 30 -45 minutes 12g
Altered design
Whilst this design will maintain the same face to screen clearance and utilises the same punched acetates, it is significantly different from the original design. The walls are significantly thicker and the overall height of the band is considerably lower. 3D printers will be much more forgiving with this design (resulting in less failures) and will be able to print this version much quicker.

If your machine has had difficulty in printing the above two designs then please use this design. If you have a well calibrated machine you may want to attempt printing this version at your machines highest speed to increase your output.


Fast Face Shield

Headbands

PETG filament is being recommended for the headbands because it is more likely to survive autoclaving, but at the moment we are expecting (based on information from DrGandalf) that these masks will be going to clinics, not hospitals, and will therefore not be going through autoclaves. Instead they will be wiped clean, so PLA is also fine for printing the head bands.

It may be better to laser cut headbands where possible, due to the tendency for FDM prints to produce surfaces that can harbour bacteria. More investigation and research is needed into making headbands on a laser cutter.

Regarding the FDM surface issue, at the moment we are working on the principle of something being better than nothing. We are still waiting on an official directive from infection control as to what materials and approaches are approved.

Visors

Visors can be made from A4 transparencies, as per the first design above. They can be acquired from Amazon:

Dominic Morrow has purchased some of these. We will know more about their suitability and properties when they arrive.

It may be possible to cut the visors with a laser cutter. Future investigation is required here regarding materials.

Packaging

The masks must be cleaned after production, and kept clean during transport and storage. At the moment we intend to vacuum seal the PPE with a regular kitchen vacuum sealer and large sous vide bags. The wet area near the laser cutter should be ideal for cleaning, and the bench next to it can be used for vacuum sealing. Graham Sutherland has volunteered to provide the vacuum sealer, sous vide bags, nitrile gloves, and disinfectant - either as a no-contact drop-off at the hackspace, or as a no-contact pickup from the Sherwood NG5 area.

The following procedure has been proposed:

  1. Put on gloves and eye protection. A face mask or respirator that covers your mouth and nose is also recommended. Open a window for ventilation if possible.
  2. Wash the wet area down with soap and water, then spray it with disinfectant.
  3. Spray the vacuum sealer's exterior and interior with disinfectant and dry it carefully with shop towels.
  4. Set the vacuum sealer up on the adjacent bench.
  5. Prepare all the necessary sous vide bags and have them ready in the wet area.
  6. Take a face shield and spray it all over, inside and out, with disinfectant.
  7. Use shop towels to remove any excess liquid. This is important as alcohol-based disinfectant is flammable.
  8. Carefully place the shield into the bag.
  9. Move the bag to the adjacent bench and vacuum seal it.
  10. Go back to step 6 and repeat until completed.
  11. Clean the outside of the sealed bags with disinfectant before storing them.
  12. Clean up, tidy up, dispose of your gloves and shop towels. Celebrate a job well done :)

The disinfectant spray will likely be composed of 70% isopropyl alcohol, 5% hydrogen peroxide, and 25% water. In terms of safety, think of it like flammable bleach and treat it with care - it may bleach clothing, it is a skin irritant, and you do not want it in your eyes. Splashes or over-spray on skin can be washed away with soap and water. If in eyes flush immediately with eye wash and seek medical attention.

Safety Concerns

Please do not compromise your own safety, or that of others, in order to obtain materials or access printers / laser cutters. Follow government guidelines and stay at home.

FDM prints leave a lot of small microscopic holes in the surface, which can harbour bacteria. While not much can be done about this, and it isn't ideal, we have been told that it's currently a case of "anything is better than nothing", and that cleaning will be rigorous. For now it is probably a good idea to try to seal the surface of FDM prints with a surface sealer, epoxy, or with a flame if those aren't available. Laser cutting may be a better option but, again, FDM prints are better than nothing.

Important Slack Messages

The following messages were copied from Slack, as they contain particularly helpful information:

geoff hampson (2020-03-25 7:00PM): My opinion for what it is worth is if we want to be able to manufacture these in the quantities that are going to be required then it needs to be laser cut. Even with lots of people 3D printing parts the capability just won't be there. The laser cut version looks ok, but I think with a big bed some parts could be combined and I think with the right design the parts could slot together eliminating the need for the plastic rivets. What will also be essential in production is processes to ensure that the parts aren't contaminated otherwise the finished items won't be able to be used for days. We can't risk ppe being supplied with Coronavirus on it.

DrGandalf (2002-03-25 8:29PM): Hi all. Sorry missed the zoom. In one day have learnt the power and challenge of using Slack, negotiating in the NHS infrastructure and the amazing work our community can do.
I'll try and summarise from what I know so far and then I'll answer what I can from the medical perspective.
1. We will need as many visors as we can get.
2. Because of repeatedly pushing this - hopeful that the universities are able to join in and produce in a large scale.
3. Your willingness and contributions have blown me away.
4. I am trying to sort logistics re bands and visors with @Dominic Morrow, @mgoodwin and others.
5. Re not being medical grade-so far the answer is we need them and better than nothing. If genuine concerns will be single use but more likely one clinician per day.
6. Regarding the plastic sheet version I am trying to get a better idea from infection control but this will take a day or two unfortunately - bureaucracy still exists.
7. My next plan is to focus on logistics given you are all in lockdown for collection. Hoping we can arrange a collection service for distribution to ensure your work is used by NHS and social care and not misusing your support. For this reason if you have made anything please use this spreadsheet bit.ly/NottsRC2