Nothing Special's '71 Bronco

[Nothing Special]

IIRC the flares are plastic.

If you don't have one yet might be time to buy aplastic welder.

Once you get the "rocker" in place and welded you can trim the flare with a hack saw and heat to bend the edges back where they need to be and weld it and finish it to look good.

If you don't want to go with the plastic welder look into https://www.plastex.net/I have used it and works great.

Dave ----

Stock didn't have flares. A lot of the early aftermarket options were fiberglass (which is what those one had when I bought it) but these are made out of rubber.

[FuzzFace2]

IIRC the flares are plastic.

If you don't have one yet might be time to buy aplastic welder.

Once you get the "rocker" in place and welded you can trim the flare with a hack saw and heat to bend the edges back where they need to be and weld it and finish it to look good.

If you don't want to go with the plastic welder look into https://www.plastex.net/I have used it and works great.

Dave ----

Stock didn't have flares. A lot of the early aftermarket options were fiberglass (which is what those one had when I bought it) but these are made out of rubber.

I know the flares as one of our 4x4 race team members had a Bronco with the plastic ones.

The only rubber ones I know of are kind of flat and you trim to fit the openings, had a set on my 86 K5 Blazer. Think Jeep CJ's they made a molded type rubber they make them for Bronco's?

Dave ----

 

[Nothing Special]

IIRC the flares are plastic.

If you don't have one yet might be time to buy aplastic welder.

Once you get the "rocker" in place and welded you can trim the flare with a hack saw and heat to bend the edges back where they need to be and weld it and finish it to look good.

If you don't want to go with the plastic welder look into https://www.plastex.net/I have used it and works great.

Dave ----

Stock didn't have flares. A lot of the early aftermarket options were fiberglass (which is what those one had when I bought it) but these are made out of rubber.

I know the flares as one of our 4x4 race team members had a Bronco with the plastic ones.

The only rubber ones I know of are kind of flat and you trim to fit the openings, had a set on my 86 K5 Blazer. Think Jeep CJ's they made a molded type rubber they make them for Bronco's?

Dave ----

The ones I have are from Wild Horses and are called "Gorilla Warflares" They are formed rubber flares for early Broncos.

https://www.wildhorses4x4.com/product/WH_Gorilla_Warflares_Rear/Bronco_Fender_Flares

[Nothing Special]

The ones I have are from Wild Horses and are called "Gorilla Warflares" They are formed rubber flares for early Broncos.

https://www.wildhorses4x4.com/product/WH_Gorilla_Warflares_Rear/Bronco_Fender_Flares

After taking a couple days off I made more progress today. A little of the kind you can see and a lot of the kind that's no fun.

I started by giving myself a place to cut threads to attach the front fender to the 4x4 tube. I cut a 2x4 hole in the top of the 4x4, and then welded a 2x4 piece of 3/8" flat stock in the hole. This was the second time I used my welder (the first was so little it hardly counts) and I'm pretty happy with it. I'm not a great welder, but the auto settings seemed to work pretty well, and the end result ain't goin' nowhere. A friend of mine says you should never grind your welds. He says "You made that, like you made your children. You wouldn't grind down your children, would you?" But I ground these welds flat because the top of the tube needs to be smooth for the fender to attach nicely.

Then I trimmed the front end of the tube to angle it back as it goes from outside to inside. You can see that in the picture above. That was to keep the same clearance between the tire and the inside edge of the tube as there is between the tire and the outside edge as the tire swings through turns.

And finally for the visible progress I cut a flat piece out of my extra 4x4 tube to cap off the front end and then welded it on. Again I'm happy with how the welds worked out (given who was doing the welding). In this picture the tube is upside down, so the corner closest is the inside corner that will be least visible. I started with that corner to try to figure out what I was doing before I welded the more visible corners.

Then it was time for the other kind of progress. I took a flap wheel or wire wheel (whichever would fit) to the dirty, rusty surfaces that are going to get welded to the tube. This was slow, tedious progress, much of it working from my back on a creeper. But it cleaned up a lot better than I expected. There's a little cancer in the inner rocker just behind the "A" pillar, but otherwise the entire inner rocker cleaned up to solid metal. And even the door sill cleaned up a lot better than I expected. So not fun progress, and not obvious. But I'm getting a lot closer to being ready to weld the tube in!

Looking again at the existing structure inboard of the inner rocker I'm more convinced that this will be strong enough without adding any additional supports or ties back to the floor or frame. At the back of the door there's an angled brace that goes up and in to a body mount and the reinforced floor there. In the middle of the door there's a hat channel that reinforces the floor, and the end supports the inner side of the inner rocker (these are both shown in the first picture below). And at the front of the door there's another angled brace that goes up to the reinforced floor at another body mount (second picture below). I'm not thinking that this will result in something that could never be damaged. But for how this Bronco is used I think it will work out fine.

[Gary Lewis]

After taking a couple days off I made more progress today. A little of the kind you can see and a lot of the kind that's no fun.

I started by giving myself a place to cut threads to attach the front fender to the 4x4 tube. I cut a 2x4 hole in the top of the 4x4, and then welded a 2x4 piece of 3/8" flat stock in the hole. This was the second time I used my welder (the first was so little it hardly counts) and I'm pretty happy with it. I'm not a great welder, but the auto settings seemed to work pretty well, and the end result ain't goin' nowhere. A friend of mine says you should never grind your welds. He says "You made that, like you made your children. You wouldn't grind down your children, would you?" But I ground these welds flat because the top of the tube needs to be smooth for the fender to attach nicely.

Then I trimmed the front end of the tube to angle it back as it goes from outside to inside. You can see that in the picture above. That was to keep the same clearance between the tire and the inside edge of the tube as there is between the tire and the outside edge as the tire swings through turns.

And finally for the visible progress I cut a flat piece out of my extra 4x4 tube to cap off the front end and then welded it on. Again I'm happy with how the welds worked out (given who was doing the welding). In this picture the tube is upside down, so the corner closest is the inside corner that will be least visible. I started with that corner to try to figure out what I was doing before I welded the more visible corners.

Then it was time for the other kind of progress. I took a flap wheel or wire wheel (whichever would fit) to the dirty, rusty surfaces that are going to get welded to the tube. This was slow, tedious progress, much of it working from my back on a creeper. But it cleaned up a lot better than I expected. There's a little cancer in the inner rocker just behind the "A" pillar, but otherwise the entire inner rocker cleaned up to solid metal. And even the door sill cleaned up a lot better than I expected. So not fun progress, and not obvious. But I'm getting a lot closer to being ready to weld the tube in!

Looking again at the existing structure inboard of the inner rocker I'm more convinced that this will be strong enough without adding any additional supports or ties back to the floor or frame. At the back of the door there's an angled brace that goes up and in to a body mount and the reinforced floor there. In the middle of the door there's a hat channel that reinforces the floor, and the end supports the inner side of the inner rocker (these are both shown in the first picture below). And at the front of the door there's another angled brace that goes up to the reinforced floor at another body mount (second picture below). I'm not thinking that this will result in something that could never be damaged. But for how this Bronco is used I think it will work out fine.

That's really good progress, Bob! And those welds are excellent. I wish mine were that good.

On the strength issue, I agree with you, it'll be strong enough - assuming that the way you put the piece on top of the 4x4 prevents the 4x4 from rotating.

Let me say that another way. As long as all of the forces are in the vertical plane then it is strong. But imagine if the piece on top was just a thin piece and you placed it on the top inside edge of the 4x4 and started lifting the vehicle by pressing on the bottom outside edge of the 4x4. The 4x4 would want to rotate and it would bend the rocker out at the bottom.

So you need the piece on top to be wide enough to reduce the rotational forces on the 4x4 enough so the inner rocker won't bend.

Does that make sense? I don't think I explained it very well.

[Nothing Special]

That's really good progress, Bob! And those welds are excellent. I wish mine were that good.

On the strength issue, I agree with you, it'll be strong enough - assuming that the way you put the piece on top of the 4x4 prevents the 4x4 from rotating.

Let me say that another way. As long as all of the forces are in the vertical plane then it is strong. But imagine if the piece on top was just a thin piece and you placed it on the top inside edge of the 4x4 and started lifting the vehicle by pressing on the bottom outside edge of the 4x4. The 4x4 would want to rotate and it would bend the rocker out at the bottom.

So you need the piece on top to be wide enough to reduce the rotational forces on the 4x4 enough so the inner rocker won't bend.

Does that make sense? I don't think I explained it very well.

Yep, that makes sense. And I think I'll be fine there as well.

The 4x4 will have the 3/4 x 1 spacer on top that will be welded to the door sill. At both ends the door sill curves up into the "A" and "B" pillars. So that will help keep the rocker from rotating.

The angle brace at the front body mount (bottom picture in post above) comes down below what I left of the inner rocker. I'm planning on welding that to the 4x4 as well. So that will also help prevent it rotating.

The angle brace at the rear of the door (second-to-last picture above) is solidly connected to the inner rocker (which is solid at that point). So the spot welds between the inner rocker and the 4x4 will let that brace also help in tension which will help prevent rotation.

Again, I'm not thinking this is "bomb proof". It wouldn't be what I'd do if this was a rock-bouncer tube buggy. But it should be really good for what the vehicle is and does.

edit to add: Oh, and thanks for the compliments! I've never done enough weld to actually feel good at it, but I have access to a pretty good machine at work, so I've been able to at least feel competent. I've been wanting to get my own welder for a while now, and since I can't get a vehicle to the welder at work (or take the welder out to a vehicle) I needed my own for this project.

I've heard enough people say (I was never a good welder until I bought a good welder", so I got a Millermatic 215. So far I'm happy with it!

[ArdWrknTrk]

Yep, that makes sense. And I think I'll be fine there as well.

The 4x4 will have the 3/4 x 1 spacer on top that will be welded to the door sill. At both ends the door sill curves up into the "A" and "B" pillars. So that will help keep the rocker from rotating.

The angle brace at the front body mount (bottom picture in post above) comes down below what I left of the inner rocker. I'm planning on welding that to the 4x4 as well. So that will also help prevent it rotating.

The angle brace at the rear of the door (second-to-last picture above) is solidly connected to the inner rocker (which is solid at that point). So the spot welds between the inner rocker and the 4x4 will let that brace also help in tension which will help prevent rotation.

Again, I'm not thinking this is "bomb proof". It wouldn't be what I'd do if this was a rock-bouncer tube buggy. But it should be really good for what the vehicle is and does.

edit to add: Oh, and thanks for the compliments! I've never done enough weld to actually feel good at it, but I have access to a pretty good machine at work, so I've been able to at least feel competent. I've been wanting to get my own welder for a while now, and since I can't get a vehicle to the welder at work (or take the welder out to a vehicle) I needed my own for this project.

I've heard enough people say (I was never a good welder until I bought a good welder", so I got a Millermatic 215. So far I'm happy with it!

Your welds are looking good.

I think the issue may be when it comes to attaching the box to sheet metal.

The proverbial "welding a razor blade to a boat anchor"

Very hard to have enough heat in a big chunk of steel (because it is conducting it away) for good penetration, without instantly vaporizing the sheet metal.

Bonding is an option, as Gary mentioned.

I'd grind up the surface of the box and run a fat bead in the center of your area.

You've put enough when you see it squeeze out all around.

The other advantage is that there are no voids for water (or even air) to start corrosion.

I didn't see it mentioned, but have you thought of Cosmoline in the tubes?

I've seen WW-II surplus that still has that stuff intact!

[IDIBronco]

Yep, that makes sense. And I think I'll be fine there as well.

The 4x4 will have the 3/4 x 1 spacer on top that will be welded to the door sill. At both ends the door sill curves up into the "A" and "B" pillars. So that will help keep the rocker from rotating.

The angle brace at the front body mount (bottom picture in post above) comes down below what I left of the inner rocker. I'm planning on welding that to the 4x4 as well. So that will also help prevent it rotating.

The angle brace at the rear of the door (second-to-last picture above) is solidly connected to the inner rocker (which is solid at that point). So the spot welds between the inner rocker and the 4x4 will let that brace also help in tension which will help prevent rotation.

Again, I'm not thinking this is "bomb proof". It wouldn't be what I'd do if this was a rock-bouncer tube buggy. But it should be really good for what the vehicle is and does.

edit to add: Oh, and thanks for the compliments! I've never done enough weld to actually feel good at it, but I have access to a pretty good machine at work, so I've been able to at least feel competent. I've been wanting to get my own welder for a while now, and since I can't get a vehicle to the welder at work (or take the welder out to a vehicle) I needed my own for this project.

I've heard enough people say (I was never a good welder until I bought a good welder", so I got a Millermatic 215. So far I'm happy with it!

I have pictures saved somewhere of a project similar to this on a bit newer bronco. I have always kept the thought of cutting out the rust in the floor edge/rocker and replacing it with a wider profiled tube all the way up to the lip where the doors weather stripping lives (2x6 maybe) then tie some kickers over to the frame. Basically removing the bottom outside edges of the body 5-6 inches and flush the tube up into the body. And weld a small angle on top of the tube for the weatherstrip to go on. The doors would have to be modified to match on my body style. You gain some height on the rockers that way too. A person can even incorporate a slick material into panels underneath in the openings like skid plates but thick light weight plastics. The stuff that slides on obstacles without being destroyed and isn't super heavy. I have seen people fill tubes and even rocker panels in small unibody cars with some of that hard expanding foam. I think there are mixed results with the method, but allegedly you can stiffen the structure, and keep junk from going into the space. You have to carefully choose what foam you fill with, and when you install it... (After welding is all complete) I do think with the right product you could get something that could stick to the steel internally not degrade as it will be protected from the sun, but personally I would probably just weld them shut. You can always weld onto them, and cut out to repair.

I like the way your project is progressing quite a bit. I will be following along now. Maybe I will try and find those pictures back, I can't even remember who's project that was now. My bronco body is rough enough there is no reason for me to try and restore it. I have considered a bobbed stepside bed/flatbed and a regular cab swapped on, but the more I read about what you are doing the more I like this option... Perhaps my bronco will remain a bronco yet (with some enhancements, make it better with what's available to work with).

Keep going, I approve not that it matters.

EDIT

THIS is what I was thinking of. Not sure it will be of any use, but more information is usually a helpful thing.

[Nothing Special]

Your welds are looking good.

I think the issue may be when it comes to attaching the box to sheet metal.

The proverbial "welding a razor blade to a boat anchor"

Very hard to have enough heat in a big chunk of steel (because it is conducting it away) for good penetration, without instantly vaporizing the sheet metal.

Bonding is an option, as Gary mentioned.

I'd grind up the surface of the box and run a fat bead in the center of your area.

You've put enough when you see it squeeze out all around.

The other advantage is that there are no voids for water (or even air) to start corrosion.

Thanks!

I still think I'm going with welding. One of the things I'm going to be working on in the next couple of days is prepping some of the rusty junk I cut off for welding so I can practice welding that to some scrap pieces from the tube. If I can't get that to work adhesive may well be the plan B.

I didn't see it mentioned, but have you thought of Cosmoline in the tubes?

I've seen WW-II surplus that still has that stuff intact!

I've never seen Cosmoline in real life (and wouldn't know where to get it). But my impression is that it's more of a wax or at least grease consistency, and I don't see a way to apply that to the inside of a 54" long 4x4 tube, even if the ends hadn't been welded shut yet. Am I wrong? Does it go on as a liquid?

So far your suggestion of bar oil seems like the best bet (although I don't see mixing it with wax as you suggested for the same reason as the Cosmoline).

[Nothing Special]

I have pictures saved somewhere of a project similar to this on a bit newer bronco. I have always kept the thought of cutting out the rust in the floor edge/rocker and replacing it with a wider profiled tube all the way up to the lip where the doors weather stripping lives (2x6 maybe) then tie some kickers over to the frame. Basically removing the bottom outside edges of the body 5-6 inches and flush the tube up into the body. And weld a small angle on top of the tube for the weatherstrip to go on. The doors would have to be modified to match on my body style. You gain some height on the rockers that way too. A person can even incorporate a slick material into panels underneath in the openings like skid plates but thick light weight plastics. The stuff that slides on obstacles without being destroyed and isn't super heavy. I have seen people fill tubes and even rocker panels in small unibody cars with some of that hard expanding foam. I think there are mixed results with the method, but allegedly you can stiffen the structure, and keep junk from going into the space. You have to carefully choose what foam you fill with, and when you install it... (After welding is all complete) I do think with the right product you could get something that could stick to the steel internally not degrade as it will be protected from the sun, but personally I would probably just weld them shut. You can always weld onto them, and cut out to repair.

I like the way your project is progressing quite a bit. I will be following along now. Maybe I will try and find those pictures back, I can't even remember who's project that was now. My bronco body is rough enough there is no reason for me to try and restore it. I have considered a bobbed stepside bed/flatbed and a regular cab swapped on, but the more I read about what you are doing the more I like this option... Perhaps my bronco will remain a bronco yet (with some enhancements, make it better with what's available to work with).

Keep going, I approve not that it matters.

EDIT

THIS is what I was thinking of. Not sure it will be of any use, but more information is usually a helpful thing.

Thanks for the kind words!

I looked at the project you linked. That looks great, but beyond what I want to do or what I think I need to do. Not saying it isn't a good choice for you, but when I read "modified the doors" I knew I was out! And as I've noted, tying to the frame on the driver's side isn't really possible due to the aux gas tank. Of course that doesn't mean that I couldn't on the passenger side, but it doesn't seem necessary to me for this vehicle. Again, not that it's a bad idea, just probably not for me in this case.

Filling with foam doesn't seem necessary or advisable to me. Sort of like Ford pickup cab corners. Filling metal with something that holds moisture in once it's there doesn't seem like a good way to prevent rust, even if it makes it harder for the moisture to get there in the first place. My original thought was to spray so WD-40 ("Water Displacing") in, but Gary and Jim's concerns about that evaporating out pretty soon, and Jim's suggestions of more stable stuff have me leaning toward bar oil now.

By the way, I don't think I've mentioned it yet, but my plan for mounting the rub rails includes running stand-offs all the way through the 4x4 tube so they will be welded to both the inner and outer walls of the 4x4. That won't do much to strengthen the tube against a hit on the bottom, but it will strengthen it against hits from the side.

I do, in general, like the idea of the HMWP (? maybe I have the initials wrong, but the cutting board plastic that people use on skid plates). But I don't think it will be a big issue on these rockers. In the picture below (posted several days ago) you can see how far down the radius arm mounts are below the rockers. That's what hits the rocks the hardest! And in between the radius arm mounts the transfer case hangs almost that low. The hope for next winter's project (once I finish this up which was supposed to be LAST winter's project!) is a tummy tuck to get all of that higher and get a skid plate under it. I MIGHT put plastic on that skid plate. But I don't think it'll be as needed here.

http://forum.garysgaragemahal.com/file/n65396/DSC_0475.jpg