Confab
Agricultural
- Feb 22, 2014
- 4
I am having difficulties bonding a machined end cap (nylon 6) over the end of 19mm double braided nylon rope. I am unable to determine if the rope fibers are Nylon 6 or 6-6. The epoxy used is an off–the-shelf hardware store “lock tight” epoxy plastic bonder. Our goal is to get a minimum of 150lb of direct pull to remove the end cap.
Failed methods tried:
1 We filled the end cap with epoxy and placed it over a seared end of the rope and allowed full cure. At 8lb of pull, the end cap lost bond and was removed.
2 We lightly frayed and opened the rope and filled it with epoxy then placed the rope end into the cap filled with additional end epoxy, and cured. The results were much better, but still failed at 30lb of pull. The epoxy broke free from the nylon cap and was a very messy process.
3 We lightly frayed and opened the rope and filled it with epoxy then placed the rope end into a Teflon mold with compression and cured. We then placed the cap filled with additional end epoxy onto the rope and cured once more. The results increased though failed at 65lb of pull. The epoxy separated or failed at the bond joint of both the rope and cap and was also a very messy process.
Planned Changes:
1 We have started researching “Structural Plastic Adhesive for low surface energy plastics” as a replacement for our off the shelf plastic epoxy. This is our need, we are lost in the number of acrylic adhesives to choose from that would be best suited for this application, or even if acrylic-based adhesive is the best option. We are also wondering if there is a way to “weld” the joint. We don’t have any plastic weld knowledge be it mechanical, chemical, or ultrasonic applicable for this use of nylon and nylon fibers.
2 The second planned change is to machine a square ring groove inside or knurl the inner surface of the cap to try and get more surface area to bond with or create a pegging effect.
3 Seek much needed guidance in: What are the best bonding options? Of those options, what achieves the goal most cost effectively? What can we do mechanically to best improve the parts?
I am unsure if I provided enough or the correct information needed to help, I’ll try to provide more if needed, I really appreciate your advice and time offered.
Failed methods tried:
1 We filled the end cap with epoxy and placed it over a seared end of the rope and allowed full cure. At 8lb of pull, the end cap lost bond and was removed.
2 We lightly frayed and opened the rope and filled it with epoxy then placed the rope end into the cap filled with additional end epoxy, and cured. The results were much better, but still failed at 30lb of pull. The epoxy broke free from the nylon cap and was a very messy process.
3 We lightly frayed and opened the rope and filled it with epoxy then placed the rope end into a Teflon mold with compression and cured. We then placed the cap filled with additional end epoxy onto the rope and cured once more. The results increased though failed at 65lb of pull. The epoxy separated or failed at the bond joint of both the rope and cap and was also a very messy process.
Planned Changes:
1 We have started researching “Structural Plastic Adhesive for low surface energy plastics” as a replacement for our off the shelf plastic epoxy. This is our need, we are lost in the number of acrylic adhesives to choose from that would be best suited for this application, or even if acrylic-based adhesive is the best option. We are also wondering if there is a way to “weld” the joint. We don’t have any plastic weld knowledge be it mechanical, chemical, or ultrasonic applicable for this use of nylon and nylon fibers.
2 The second planned change is to machine a square ring groove inside or knurl the inner surface of the cap to try and get more surface area to bond with or create a pegging effect.
3 Seek much needed guidance in: What are the best bonding options? Of those options, what achieves the goal most cost effectively? What can we do mechanically to best improve the parts?
I am unsure if I provided enough or the correct information needed to help, I’ll try to provide more if needed, I really appreciate your advice and time offered.