On average, it is more. However, it sounds like he wants to move from a prototype over to something closer to a production ready part. Getting a master using SLA, then going to a silicone mold does make sense. The overall costs would be less with a production run of 50+.
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Thank you very much for all your answers.
The detail is for a product that should be used indoor. Lifespan would be 10 years or more. The electronics is battery operated, and there are no demands for IP rating. There are 4 other details in the product, one similar, the three others simpler. So my total is 5 different details, 50 per year of each. 50 per year is an estimate.
I also believe that best method would be to 3D print the details in one material and then add laser-cut acrylic plastic for LED windows. But it would be nice if it could be done as a two-material printout.
The printouts in the photos are not made on an Ultimaker 2+, but I have made printouts on one that was better but still had many similar defects.
I got an offer in Sweden for casting in polyurethane that was rather expensive. As I understand it, you need vacuum equipment to make casting reasonably good. But it certainly is a possibility.
To do injection molding, I would need 5 tools (it might be possible to put several details in same tool). I don’t want any draft, so the tools will be expensive,
The suggestion to use PETG sounds interesting. I am also thinking that with next order request, I can add photos of how I want it to look and how it shouldn’t look. I have printouts that looks nice on one side.
Best regards
Kurt Mirdell
Having a company polyurethane cast will be more expensive than 3D printing at first, because of the cost required to make a mold, but after that it really shouldn’t cost much more. I’d solicit a few more offers if you can and make sure you’re not being price gouged a bit by them. The nice thing about molding, is once the mold is made, it’s really only the cost of the object material and the company’s time that’s left to pay, unlike 3D printing where the cost and time more or less stays the same per part regardless of how many you print.
For the volume you’re doing, injection molding will be overkill (and much more expensive). If you were talking making more than 300 or so over a short period of time, then injection molding makes sense because the cost/part balances out.
PETG is really nice stuff, I actually just placed an order to get some more of it after how well using the samples from my printer manufacturer worked. It produces really nice prints, and isn’t that expensive either. I’d suggest looking at some other co-polymer filaments and seeing what you think of them (PETG is a co-polymer as well) as compared to ABS; Colorfabb XT, MadeSolid PET+ and Taulman T-Glase are some well known ones.
Hello Kurt!
The print quality in the attached pictures looks quite bad for most printers, especially ultimakers and such.
I would say that your best, and simplest option, would be to find someone who can print your part from PETG, since that material doesn’t have the same issues with shrinking as ABS does. As for the windows, the best way would probably be to laser-cut them in truled plexi which would diffuse the light so that the whole window light up equally instead of having a dot in the center.
I’m based in stockholm to, so if you are interested, contact me on my hub (https://www.3dhubs.com/stockholm/hubs/svensson-d-sign 2) and I’ll print a sample and cut some plexiglass for you.
Best regards
Oscar Svensson
9 days later
Hi Kurt,
my 3D shop at Sveavägen in Stockholm can help you. We are working with solid blocks of real materials, like aluminium, wood and platsics, to make end products in small runs. And if you need prototypes, we make those with FDM 3D printing.
Give me a shout via my Hub if you are interested!
Best
/Lamin