It’s your responsibility as a 3D printer owner to insure anything you make that will contact food complies to the specifications if you want to make the claim that they are food safe.
But If you’ve done your due diligence, checked that your materials and process are food safe you can say that your items are food safe. The FDA doesn’t regulate that statement or certify you as food safe or not, they just ask that any statement you make must be truthful. However if called out on it you may have to produce a letter of guarantee, which FDA has guidelines on:
But If you’ve done your due diligence, checked that your materials and process are food safe you can say that your items are food safe. The FDA doesn’t regulate that statement or certify you as food safe or not, they just ask that any statement you make must be truthful. However if called out on it you may have to produce a letter of guarantee, which FDA has guidelines on:
http://www.fda.gov/Food/IngredientsPackagingLabeling/PackagingFCS/Notifications/ucm095327.htm
Search for what materials are food safe for what purposes at:
Search for what materials are food safe for what purposes at:
http://www.accessdata.fda.gov/scripts/fcn/fcnNavigation.cfm?rpt=iaListing
EDIT: So apparently I didn't express that this is just concerning FDA regulation and the use of the term "food safe". "Food safe" is a bit like "organic" except with slightly more regulation, but it doesn't mean that there won't still be concerns. There are, however, things that aren't concerns. For instance, brass nozzles.
Brass contains lead, and lead contains brain damage or death, depending on how much you get in you how quickly. But hold on a second before you start up the panic wagon. Brass is less than 2% lead. If we consider a very generous 1% transfer rate getting into your print (which would wear down your nozzle to nothing in 100 prints), and assume 1% transfer rate from the 3D printed fork to your body (again, wearing the fork to nothing in 100 uses) you're still only getting 0.000002% of the weight of the nozzle of lead into your body. You'd have to eat a whole nozzle every day to be at even chronic toxicity levels for a child. Brass nozzles, not a problem.
What is a problem is bacteria growth. Reddit user Festernd tested glass vs plastic vs 3D printed glasses for bacteria growth and discovered the 3D printed cup "had as [much bactera as] an unswept floor --much more than I expected." I plan to reproduce this experiment and add a smoothed print to the equation, but clearly bacteria growing in the layer lines is still a problem.
But that's not a problem for the FDA. Maybe just because they can't regulate it. They're a small department with limited resources. But what ever the reason don't automatically trust that "food safe" means it's time to replace your glassware with 3D printed plastic just yet.
EDIT: So apparently I didn't express that this is just concerning FDA regulation and the use of the term "food safe". "Food safe" is a bit like "organic" except with slightly more regulation, but it doesn't mean that there won't still be concerns. There are, however, things that aren't concerns. For instance, brass nozzles.
Brass contains lead, and lead contains brain damage or death, depending on how much you get in you how quickly. But hold on a second before you start up the panic wagon. Brass is less than 2% lead. If we consider a very generous 1% transfer rate getting into your print (which would wear down your nozzle to nothing in 100 prints), and assume 1% transfer rate from the 3D printed fork to your body (again, wearing the fork to nothing in 100 uses) you're still only getting 0.000002% of the weight of the nozzle of lead into your body. You'd have to eat a whole nozzle every day to be at even chronic toxicity levels for a child. Brass nozzles, not a problem.
What is a problem is bacteria growth. Reddit user Festernd tested glass vs plastic vs 3D printed glasses for bacteria growth and discovered the 3D printed cup "had as [much bactera as] an unswept floor --much more than I expected." I plan to reproduce this experiment and add a smoothed print to the equation, but clearly bacteria growing in the layer lines is still a problem.
But that's not a problem for the FDA. Maybe just because they can't regulate it. They're a small department with limited resources. But what ever the reason don't automatically trust that "food safe" means it's time to replace your glassware with 3D printed plastic just yet.
Hi Joe! This is Lauren from Pinshape. Great article and video - thanks for sharing. We just wrote a blog about this very subject and we referenced your video. You can check it out here and feel free to share! https://blog.pinshape.com/3d-printing-food-safe/
ReplyDeleteBeat 'cha to it Lauren:
Deletehttp://joes3dworkbench.blogspot.com/2015/11/pinshapes-guide-to-food-safe-prints.html
Because I've got my eye on you.
Thanks Joe! :)
ReplyDeleteHey Joe!
ReplyDeleteHave you heard of any/do you know any epoxies that are good for dipping parts into? For the purpose of making water tight, food safe, stronger, etc...
Thanks!
I wish. The closest thing I've found is XTC-3D, and it's so not a dip in solution at all. Paint on. Lots and lots of painting. And it's not food safe.
DeleteIn fact by definition I don't think epoxies resins can be food safe.
Just stumbled on to this post while researching a related topic, thought I'd leave a comment for future readers:
DeleteIf you are looking for a food safe coating for your prints, Alumilite Crystal Clear Casting Resin is a great food safe epoxy resin. It's is very thin compared to XTC3D, and has a MUCH longer working time, and a significantly longer set-up (curing) time.
Just stumbled on to this post while researching a related topic, thought I'd leave a comment for future readers:
DeleteIf you are looking for a food safe coating for your prints, Alumilite Crystal Clear Casting Resin is a great food safe epoxy resin. It's is very thin compared to XTC3D, and has a MUCH longer working time, and a significantly longer set-up (curing) time.