bngneer1138
Bioengineer
- Sep 18, 2013
- 10
Hello,
I am posting this question on here for someone i have been trying to help sort out a plastics problem for sometime now. The following is a brief description of the part and problem.
I have no actual experience in the plastics industry, but i am an engineer and know what i know from reading and classes; by no means am i a plastic expert of any sorts.
The part itself is, essentially, a small removable bracket that ,in the past, had been made from mild steel and is used to support a beam for horse jumping. The industry/demand has changed from metal to plastics. To stay competitive, my friend decided to get into the plastics market. The parts are nylon 6-6 (black), spend their life outside, see regular impact and are essentially disposable. However, the parts he is receiving from the molder are horribly inconsistent some are very good some are glass-like brittle. To try and determine good vrs. bad parts, we developed a fairly crude impact tester as a crude "incoming inspection". Upon breaking a few parts I noticed a few things.
1- Parts that failed prematurely always had clean brittle failures. Good parts that were tested to failure always deformed (plasticly) before breaking.
2- Some parts (good and bad) have small air bubbles within the part exposed upon breaking
3- Visible flow lines on part(some not all) surface that are NOT detectable by feel, but clearly visible.
Possible causes and tests we have narrowed it down to
soaked parts in water for over a week and showed little to no difference in impact strength as opposed to the untreated control. This was done from batches that were known to be good as well as bad batches. Definite change in feel as Post soak parts had much more solid sound when hit together as opposed to pre-soak which have a distinct hollow sound.
Moisture in granules pre molding?
supplier claims no regrind is used....regrind issue?
Cold mold cavity?
machine itself is too small
possible mold gate issue ( wrong location and/or diameter)
I think we have pointed out the obvious problem areas. I am posting on here to get other opinions/view points. The parts are disposable, but still need to have a somewhat realistic life span. Any tips or suggestions would be greatly appreciated. We have tested other commercially available parts of similar design and material and they far outlast our parts. I can post pictures as well if needed.
Thanks!
I am posting this question on here for someone i have been trying to help sort out a plastics problem for sometime now. The following is a brief description of the part and problem.
I have no actual experience in the plastics industry, but i am an engineer and know what i know from reading and classes; by no means am i a plastic expert of any sorts.
The part itself is, essentially, a small removable bracket that ,in the past, had been made from mild steel and is used to support a beam for horse jumping. The industry/demand has changed from metal to plastics. To stay competitive, my friend decided to get into the plastics market. The parts are nylon 6-6 (black), spend their life outside, see regular impact and are essentially disposable. However, the parts he is receiving from the molder are horribly inconsistent some are very good some are glass-like brittle. To try and determine good vrs. bad parts, we developed a fairly crude impact tester as a crude "incoming inspection". Upon breaking a few parts I noticed a few things.
1- Parts that failed prematurely always had clean brittle failures. Good parts that were tested to failure always deformed (plasticly) before breaking.
2- Some parts (good and bad) have small air bubbles within the part exposed upon breaking
3- Visible flow lines on part(some not all) surface that are NOT detectable by feel, but clearly visible.
Possible causes and tests we have narrowed it down to
soaked parts in water for over a week and showed little to no difference in impact strength as opposed to the untreated control. This was done from batches that were known to be good as well as bad batches. Definite change in feel as Post soak parts had much more solid sound when hit together as opposed to pre-soak which have a distinct hollow sound.
Moisture in granules pre molding?
supplier claims no regrind is used....regrind issue?
Cold mold cavity?
machine itself is too small
possible mold gate issue ( wrong location and/or diameter)
I think we have pointed out the obvious problem areas. I am posting on here to get other opinions/view points. The parts are disposable, but still need to have a somewhat realistic life span. Any tips or suggestions would be greatly appreciated. We have tested other commercially available parts of similar design and material and they far outlast our parts. I can post pictures as well if needed.
Thanks!
