We had a member that made them and i bought and used a dozen on them worked perfect. They were made with a product that is printed then baked and is more like a metal. Any 3d printing materail is made of lines of material that are bonded to each other. Anything this thin will not stand up. It will break at the joint lines. If you are a programmer and can write your own code you can make the part strong by printing in solid and the finest line you can then each pass has to be made at 90 degree angles to the last pass. . best metod woukd be to make a mold and injection mold them. Thats how the factory did. then with a carbon fiber product it would be strong enough.
By the way the member posted some for 40$ each and members thought he should give them away .
Goid luck when you get them done ill
We had a member that made them and i bought and used a dozen on them worked perfect. They were made with a product that is printed then baked and is more like a metal. Any 3d printing materail is made of lines of material that are bonded to each other. Anything this thin will not stand up. It will break at the joint lines. If you are a programmer and can write your own code you can make the part strong by printing in solid and the finest line you can then each pass has to be made at 90 degree angles to the last pass. . best metod woukd be to make a mold and injection mold them. Thats how the factory did. then with a carbon fiber product it would be strong enough.
By the way the member posted some for 40$ each and members thought he should give them away .
Goid luck when you get them done ill buy 6-8
actually, unlike filament printing, SLA parts aren’t bonded layers, they are continuous, homogeneous solid that is “grown” in layers. As the resin is cured, it doesn’t just stick to the previous layer, it becomes a thicker surface. There are no layers, so no inherent weak points from the printing process.