‘72 Dart - Road Race Resto

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Triangulated 4-Link Progress
Progress on the 4-link has been quite slow due to time constraints, but figure I might as well post where I’ve gotten so far:

Measurements and Preparing
Since the 4-link is custom, the first steps were determining axle centerlines and confirming wheelbase. These measurements were taken to serve as a reference for properly locating the rear axle after the removal of the leaf-packs and to check if the wheelbase did in fact match factory specification, as the tolerances on these cars were quite egregious—even for something like steering and suspension placement. Axle centerlines were marked on the body panels to use as reference points later on.

Next: Setting desire ride height. After taking a handful of measurements to determine limitations on how far the Dart could be lower, I settled on a ride height of 8", measured from the leading and trailing edges of the rocker panel pinch welds. At this height, The front wheels tuck into the fenders nicely, closing the gap between the front wheel and fender arch without being so far in as to cause rubbing during sharp turns. In the rear, this new ride height lowers the rear end 2", and tucks the wheels in quite nicely with no fitment issues.

Personally, I feel the proportions and lines of the Dart do an excellent job of hiding how lengthy it is. With the new, low-slung ride height the car possesses a more aggressive look that positively emphasizes just how long and linear its styling is—especially regarding the rear quarters and their overhang.

With a new ride height selected, I got to work on divorcing the leaf springs from the chassis and axle. The rust on the fasteners was so severe an impact alone wouldn't work, so out came the acetylene torch to heat them up.

Using the aforementioned centerline markings, I relocated the axle under the car, making sure it was properly located longitudinally, laterally, and at the proper centerline height and pinion angle. Once it was situated, I took scrap metal and tack-welded it to the frame and axle so I could lift up the car and begin working underneath on suspension without losing the desired axle position.

Starting the Four-Link Design
Thinking ahead to my plans for a mini-tub, I've opted not to use the factory front spring mounting location for the four-link. Rather, I am mounting the lower-links on the bottom of the frame rails and placing the lower-link axle brackets inboard of the outer edge of the frame rails. Doing so will allow me to fit the widest possible tire—the frame rail and inner fender being my only constraints on width.

Once the Dart was up on the lift and taking better stock of what I was working with, it was decided the factory inverted-hat-channel frame rails weren't up to snuff—substantial reinforcement would be necessary to adequately support the lower bars of the four-link.

To beef up the factory frame rails which are no more than cleverly folded sheet metal, I plated the area the lower brackets would go to with 1/8" thick flat stock. Doing so was fairly straight forward: using a cardboard template to get a rough profile for cutting out the plates, I then took my time grinding and filing them so they would follow the frame curvature as closely as possible and then bent a strip to go over the bottom of the rail to tie the plates together. To further reinforce the rails and tie the plates into them I drilled plug weld provisions into the plates.

Additionally, the parking brake cable brackets were in the way of the plates, I drilled out the spot welds so I could save the brackets for later use.

As it currently stands, I am about 50% done with welding the plates in and will begin building bracketry for the low links come Monday.


Note: I am doing these updates in fairly lengthy posts for my own benefit as a means to more accurately log my build, however, I am making the effort to abridge them for the sake of readability those of you who aren't too interested in reading paragraphs regarding the minutia of my build process. If going further in-depth into the steps is something you find entertaining/interesting/helpful/educational, do let me know. Alternatively, if there is a better place on the FABO forum for me to document my build with a high level of detail, feel free to direct me there and I will post the short and sweet versions here.

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Hey 72BluNBlu,
Just read through your full post on your build. Very impressive and a lot of useful tips that frankly I didn/t know about. As I said before, Im always trying to learn something new about A-Bodies so I have a few questions you may be able to answer.

I used the 383 spec torsion bars originally and played with the adjusters for different ride height and handling characteristics. I could get the car lower but handling definitely went away. I upgraded the LCAs to units with the swaybar tabs , boxed them and used a 340 Formula S swaybar. I had issues with tire rub on the leading edge of the front fender with 14" and 15" wheels but, funny enough only the drivers side. Also , found the front end very bouncy even with the bilstiens. Torsion bars too heavy?? Love to hear your thoughts on this.

Cheers!!
I run bilsteins and PST 1.03 bars boxed in LCA on my 65 Dart. I’m thinking your 383 aren’t enough bar to match with the bilsteins.
 
4-Link is Finished!

Finished may be a bit of overstatement, as it needs a few more tweaks before I put it to the test, but it’ll hold up plenty well to some cruising. Will update further later.

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Fuel Tank Modification
Despite my best efforts to retain the factory fuel tank mounting, the coil-over mounts crept into the tank's location just enough to necessitate either a trunk-mounted fuel cell or modifications to my OE-style tank.

I elected to modify the OE tank over the cell for a few reasons. Fuel cell cost was the primary driver followed by keeping weight down low and simplicity. While a fuel cell install isn't necessarily a "complicated" modification, it required drilling additional holes into the trunk and more plumbing/fittings than the OE setup, where all that was needed was a long piece of fuel hose to join the tank to the factory hard-line.

Process
Before doing any tank modification, the tank needed to be drained or the remaining fuel. To remove the vapors, the tank was rinsed twice, drained, and left outside for a day to dry.

To clear the coil-over mounts a roughly 4-inch strip was cut out between the front face of the tank and the spare tire well contour. Stitched welding proved to be the best approach, as trying to lay a bead on material as thin as the tank tended to result in a blowout. In between bouts of stitching the tank, I hammered out the gaps between the two pieces to tighten them up for easier welding.

Once welded fully, a leak test revealed a fair amount of pinholes and seeping welds, so the tank was drained against and I did what I could to stop the leaks. A second leak test showed an improvement but leaks were still present. Rather than chasing leaks, I lined the tank using Red-Kote, which did the trick.

With 4 inches removed from the tank, the factory tank straps were too long to use, so I simply folded them over at one end, copied the cutout they originally used to slot into the frame and everything snugged right up into place.

Closing Thoughts
If i were to do something akin to this again, I would TIG it, as I prefer the greater control it gives you for heat management and feel I would've produced less leaky welds. However, this was my first substantial experience welding thin material with MIG, so the fact I got it done at all and it was seal-able with an application of Red-Kote is good enough for me for now.

All in this project cost about $30 for the tank sealant and was done with a cut-off wheel on an angle grinder and a MIG welder. The fuel-cells I considered averaged $200, and the project price would've continued to creep up accounting for fittings and making sure it was done right. Even though this project took me several days to complete, I feel the cost savings and—admittedly frustrating—experience working with thin sheet metal well worth it.

This project was the last big one holding up driving the Dart. After pulling the motor back in March for a rebuild, the work on it snowballed in a such a manner where it had been on a lift or unable to move under its own power. Last picture is after its first drive in 7 months.

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Taking some Inspiration from others on the forum, I went with a EFI/baffled Mustang tank & Return -style regulator with 3/8 supply and return lines.

Oh I also went ahead and mini-tubbed the Dart right before this project.

Did not like the starter relays proximity to the fuel lines so relocated that and cleaned some wiring since taking these pix
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Added in a Catch/Oil Separator can w the Wagner adjustable PCV recently.

Also installed an AFR gauge a few months back which has been very helpful for tuning the carb (Holley 600CFM Street Warrior). Turns out she was too lean across the board. Just need to iron out the hesitation/momentary lean when you stab the throttle.

Rear bulkhead installed too. Rear seat fit w little bending of the mounting legs

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Taking some Inspiration from others on the forum, I went with a EFI/baffled Mustang tank & Return -style regulator with 3/8 supply and return lines.

Oh I also went ahead and mini-tubbed the Dart right before this project.

Did not like the starter relays proximity to the fuel lines so relocated that and cleaned some wiring since taking these pix
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I’m curious what if anything you put between the floor and the tank to create a seal but also to not allow moisture to get trapped in that area and be an issue. I’m doing the same style setup.
 
I’m curious what if anything you put between the floor and the tank to create a seal but also to not allow moisture to get trapped in that area and be an issue. I’m doing the same style setup.
I used butyl ribbon for a seal. placed it along the very edge of the trunk opening so there wouldn’t be much chance of water pooling between the tank flange. And floor
 
Chandler, I see in your first, then second post that you went from manual to power brakes. Now you've moved back to manual (post 34). Curious what's your reasoning and what do you have for the rest of your brake system?
 
Chandler, I see in your first, then second post that you went from manual to power brakes. Now you've moved back to manual (post 34). Curious what's your reasoning and what do you have for the rest of your brake system?
To make the engine bay cleaner, and make things easier to work on was the big driver, truthfully. Still deciding if I prefer power v manual braking, but the jury is out on that atm as after the change to the manual I realized the firewall flexes when you're pressing down hard. Need to stop that flex before I can really make judgment on which I prefer
 
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