Huntindave McCann
Well-known member
Thought I start a new thread.
Quoting benp
"In my experience, there are a lot of factors into how strong the print can be. It matters at what temperature the print bed is and the nozzle, it matters on how thick each layer is, if it's thick parts it matters on how hollow the infill is and how thick the walls are. I have found typically the weakness is in shear load applied along print layers. I combat this by printing higher percentage infill with alternating print path.
I had to do a repair at work and where my piece of metal was attaching to there was an odd angle on both sides of the part that would not allow any clamp to attach to without sliding off. There was a tiny lip on the corner of the angle so I 3d printed pieces that would lock into that lip and go over the repair to create a square space for the clamps to hold onto. I applied a lot of force but I did 100% infill so that it would be the strongest possible while making sure the print orientation wouldn't allow the layers to separate under pressure.
Not trying to hi-jack the thread just like the cool technology and application this tool allows us to do.
Like the use of the printer Dave, the mind of the limit on what can be created."
Question;
I have been told that increasing wall thickness is way more beneficial than 100% infill. Right or wrong? I have a part where a bolt goes down thru and I am crushing the top layer, down into the infill. 5/16 bolt down thru a 1 inch dia. boss about 3.75 inches tall. I am thinking of increasing the walls from 2mm to 12mm (5 walls to 30 walls)
This would make the 1 inch dia boss all solid walls with no infill.
Should be my strongest option? (staying with my limitation of PLA)
Quoting benp
"In my experience, there are a lot of factors into how strong the print can be. It matters at what temperature the print bed is and the nozzle, it matters on how thick each layer is, if it's thick parts it matters on how hollow the infill is and how thick the walls are. I have found typically the weakness is in shear load applied along print layers. I combat this by printing higher percentage infill with alternating print path.
I had to do a repair at work and where my piece of metal was attaching to there was an odd angle on both sides of the part that would not allow any clamp to attach to without sliding off. There was a tiny lip on the corner of the angle so I 3d printed pieces that would lock into that lip and go over the repair to create a square space for the clamps to hold onto. I applied a lot of force but I did 100% infill so that it would be the strongest possible while making sure the print orientation wouldn't allow the layers to separate under pressure.
Not trying to hi-jack the thread just like the cool technology and application this tool allows us to do.
Like the use of the printer Dave, the mind of the limit on what can be created."
Question;
I have been told that increasing wall thickness is way more beneficial than 100% infill. Right or wrong? I have a part where a bolt goes down thru and I am crushing the top layer, down into the infill. 5/16 bolt down thru a 1 inch dia. boss about 3.75 inches tall. I am thinking of increasing the walls from 2mm to 12mm (5 walls to 30 walls)
This would make the 1 inch dia boss all solid walls with no infill.
Should be my strongest option? (staying with my limitation of PLA)


