Goblin family, it saddened me to learn about the passing of Zack Allyn and the logical concerns for safety after looking at the photos from his accident. Seeing the shearing of the frame tubes at the weld connections kicked my engineer brain into analysis mode - knowing that once a tube connection is sheared it can no longer absorb accident forces. So I'm spending some time going over the frame to analyze how accident forces would stress the cockpit area of the frame - between the A-pillar/front cage tubes and the front of the B-pillar rollbar - that is the zone of the vehicle that must remain intact if crash survivability is expected.
Granted, there are crash scenarios that are not survivable no matter how much roll cage is in place, but maximizing the integrity of the existing DF track frame roll bars is the path I will be taking in this analysis. The most important factor is keeping the frame tubes connected together throughout the dynamics (of any kind of accident) to dissipate the forces through the frame members AND keep the cockpit area intact with minimal collapse or intrusion. The DF frame tubes, being DOM Plymouth Tubes, are up to task, but as with all tube frames the weld joints are the weak points. Reinforcement of weld connections, using gussets, is the most logical choice to beef-up the weld joints. Not all weld joints in the frame need reinforcement, only the key weld joints for the cockpit area to maintain integrity is my focus.
I'm in no way indicating that the DF frame has deficient welds or design, I'm going over and above their industry accepted design criteria. Zack's accident and passing hits closer to home for me than I almost care to admit. I will do everything within my knowledge to make my Goblin more survivable and I will share my changes with everyone. More to come.