Maybe they should change that B.O.A.T. saying to “bonded or about to.” I’m sure many of you have faced this. One of the hardest parts of a boat project is the initial disassembly. Trying to get bolts that have been in place for thirty-plus years to budge. Or how about a stainless steel bolt in an aluminum piece? I know you’re cringing now. But, at least I can say we had access to our curmudgeon bolt. I had a follower post recently in order to get to bolts he needed to access to re-bed his strut, he had to remove two diesel tanks. Just to GET TO said belligerent bolts.
Shout-out to follower, Rob Miller, who tacked that job! Rob, you’re my hero. In our case, with access, albeit uncomfortable and tight, to our bolts, I’ll consider us on the lucky side. Here’s what we were dealing with. These are the components of our rudder/steering system:
The quadrant (which is in two half-circle pieces) mounts on the rudder post by fitting onto that slotted “keyway” mentioned in the diagram, and it is then bolted together, four bolts at the base, inserted in opposite directions, which thread into opposite piece of the quadrant. You can see here, the two bolt heads on port (your right) and the two holes that the shafts of the bolts on starboard are threaded into.
We knew in order to drop the rudder we were going to have to get these two quadrant pieces apart in order to remove the quadrant so the rudder post could be lowered. For this reason, Phillip had the idea to spray (well, I should say Phillip had the idea to send his bendy grease monkey down in the lazarette to spray) PB Blaster on the four bolts under the quadrant periodically for a few weeks before we hauled out hoping that would help loosen those suckers.
But, as many of you know, when you allow two different metals, here stainless steel and aluminum, to sit together for years upon years, the metals can undergo a chemical reaction and literally bond themselves together. When the boys at Perdio Sailor got in there, that is what they found. The bolts holding our quadrant to the rudder post had thoroughly seized.
With Brandon in the starboard lazarette (which stinks, that one is super tight and uncomfortable) and Shane in the port lazarette (which is a bit more spacious, but not as much for a 265-pound guy), the boys made several attempts to get the bolts to budge. First they tried manually.
Then with a cheater bar. Then with the impact driver.
Then with heat (lots and lots of heat) followed by the impact driver.
Thankfully, three of the bolts finally gave up the ghost with heat and impact and came out, but we had one last stubborn holdout on the port side. The boys continued to battle it with the impact driver, then heat, then impact, then cursing. Still nothing. More heat, more impact, more cursing. No movement. Shane finally dropped his wrench and said “I’m cutting it out.”
Breaking a Bonded Bolt
I’ll be honest, I didn’t exactly know what “cut it out” meant, but watching the guys at the shipyard—who have to deal with obstacles like this every day—think through a problem and engineer a solution is the exact reason we like to haul-out with Brandon’s exceptional team and learn from their thought-processes.
Shane’s idea was to cut the bolt head off, so he could at least pull the two quadrant pieces apart and remove them from the boat.
Then he could try to drill into and perhaps extract the obstinate shaft or, if that would not work, he could drill the shaft out, enlarge all four holes slightly and either re-tap them for new bolts, or go with through-bolts instead. Shane chose the latter and we now have four bigger, stronger, more-secure bolts, locked down with Nylocs, holding our quadrant on the rudder post.
And, it was educational for Phillip and I to learn how the crew at Perdido Sailor work around, what might seem to us, an insurmountable obstacle. You’ll also notice Shane really cleaned and spruced up our thirty-three year-old quadrant.
Thirty-three … pssssh. That pretty gal would get carded in bars. “Can I see your ID Ma’am?” : )
Proof TefGel Works
In addition, to ensure this unwanted bonding did not happen again (because you never know, we might need to remove the quadrant again someday down the road), Phillip and I used TefGel during the reassembly to ensure, this time, the stainless steel bolts did not try to bond with the aluminum quadrant.
Our tiller arm served amazing proof of the power of TefGel to prevent different metals that are in contact from bonding over time. Phillip and I installed our below-decks hydraulic auto-pilot (which we lovingly call “Lord Nelson,” because it came from a Lord Nelson boat) back in 2016 when we were hauled out to repair our rotten stringers under the mast and replace the rigging. In order to remove the rudder from the boat, the tiller arm also had to be removed. This is the bronze tiller arm mounted above the quadrant.
And, although the arm had been in place for two years untouched, with TefGel in the mix, the stainless steel bolts that hold the bronze tiller arm on the rudder post easily unthreaded. Proof: TefGel works people. Use it!
Alright, one problem solved. What’s next? Alignment of our steering cables!
Re-Aligning Our Steering Cable Pulleys
When Brandon first crawled down into our lazarette to inspect the quadrant and steering system, he noticed immediately that the alignment of our steering cable pulleys to the quadrant was not ideal. (Even though the cables are off) can you see what Brandon saw in this photo?
The base of each steering cable pulley was about one-quarter to one-half inch lower than the “seat” (the center of the groove) in the quadrant for the cables.
This meant our cables had to travel uphill to fall into the seat of the quadrant. Not something you want them to have to do.
It should be a perfectly-aligned straight shot from the pulley right into the seat of the quadrant. All of these years, and I hadn’t noticed that.
Just another reason we love having professionals, like Brandon and his team, crawl all over our boat looking for potential issues. “Look in every locker! Check anything you want! Sure, wiggle it. See if it works.” I say that because we want the Perdido Sailor guys to find anything they can that needs to be fixed while we’re in the shipyard. And I stress “need” because there is a time and money factor; no boat is going to always be in 100% pristine condition. But, we want them to find problems while we’re in the yard, because that’s when we want to fix them—when he have great tools, supplies, and experts readily available to help and supervise, rather than finding the problem when we’re out there underway with less resources and knowledge to devote to it.
And, the joking and ribbing that goes on at the shipyard is just part of the fun. Here, Phillip had missed the measurement of the additional height we would need to be jacked up in order to drop our rudder by just a couple of inches, and the guys never let him forget it. If you don’t do it absolutely 100% perfect (because we all do that, all the time, right?), they’ll pick on you. But, the more they pick on you, the more they secretly like you. Shipyard Fact No. 64.
When Brandon saw the steering cable issue, he had the idea (since he knew we were dropping the rudder which would mean the quadrant would have to come off) to lower the quadrant just a bit to make it line up better with the pulleys. I immediately laughed when he said it. Just as a knee-jerk reaction, because I knew how very little room we have between the quadrant and the aft strut. How do I know this? Because I saw that tiny little space disappear one exhausting night in a beat-down underway when our rudder had tried to make a sneaky exit out of the boat.
That was a fun night. And, a fun little video for you here of our quadrant literally grinding its way into the aft strut that supports the post, why it happened and what we learned the very simple remedy was: tighten the cockpit nut that threads the shaft up higher into the boat.
But, lack of space between the quadrant and the aft strut in order to properly align the quadrant with our steering cable pulleys did not hinder Brandon either. I swear, they don’t see obstacles, they see solutions taking shape. And Brandon certainly had one here:
Cut it. Re-engineer it. Make it work better. You gotta love that guy.
Brandon had his main guy, Shane, modify the aft strut by cutting a nice even chunk out of it that would allow us to mount the quadrant back on the rudder post at a lower spot to make it align perfectly with our steering cable pulleys. Here is a video of Brandon checking Shane’s work after Shane and I reassembled the quadrant for inspection:
And, do you know what “get in there and square that up a bit” means? Another disassembly of the quadrant by Shane and I to finalize the cut and sand it out, then reassemble the quadrant and steering cables …. again … to make sure everything worked and operated perfectly. I’m telling you, by Day Two at the shipyard, I am quite confident I could disassemble and reassemble everything on the rudder post myself. What an awesome confident feeling!
#diystrong
But, it will all be worth it when our quadrant now has free space and no chance of making contact with the boat if it the cockpit rudder nut gets a little loose in heavy seas (although Phillip and I now know to check and occasionally tighten that nut), and our steering cables are no longer having to step up to fall into the seat of the quadrant. Now they are perfectly aligned. Little things like this I’m sure will add years of awesome cruising years to our beautiful boat. And, while we continue to learn the more we work on our boat, I know she still has many lessons to teach us. And, I know we’ll be ready to learn them, whether they occur at the yard or out in the big open blue. It’s a great big school out there!
I know some days will look like this …
But many others will look like this …
And I wouldn’t have it any other way! More shipyard projects to come. Next up. We’ll give props to the prop shaft by re-bedding the strut, replacing the cutlass bearing, and re-engineering a new coupler. Stay tuned!