Check out my reinforced PPF
#1
Check out my reinforced PPF
In my ever going attempt to solidify my drive train and eliminate wheel hop, I’ve just reinforced my PPF. But first a little back ground on some of the little things I’ve already done.
I have the Jim Lab nylon diff bushings. These stiffened things up nicely without any vibrations. Then late last year I installed new pillow ball bushings. Guys/gals if you have high mileage, it is an absolute must that you check and replace the pillow *****. I’m serious the car felt like it was brand new again and made the biggest and most noticeable difference. Also this combination has eliminated most of my wheel hop (but not all of it on the street). I then figured I would install some nylon bushings for the longitudinal arms to further help with the wheel hop. They did help some but not as well as I expected. However, the car did feel more solid. The only problem I had now was the tranny movement under hard acceleration. With everything else solid, I thought that my PPF may be cracked. So I removed it and to my surprise, it wasn’t. I thought why does it move so much then? With assistance from my dad, I grabbed two pry bars and we both began to twist the PPF from both ends. I was trying to simulate the torque twist of the engine (which we did). The PPF had a surprising amount of give. More that I thought was necessary! It would appear that Mazda really did design the suspension to load up. While the frame was out, I thought what the hell, lets reinforce it and see what happens.
I searched over the forum and couldn’t find any pics of anyone who had done a previous reinforcement.
This first pic just shows the frame in it’s raw state with some paint ground off in the sections that were to be welded.
The next few series of pics just shows my approach and layout of the plates I was going to weld in place. There is a reason I did it this way and didn’t use a long solid piece.
Now you can’t tell by the pics but the PPF isn’t perfectly flat. That’s why I had to cut smaller pieces to fit in certain locations. Staggering the plates creating more weld points should make it even stronger than just one solid piece. Well at least that’s my theory. I welded each plate at a time as to prevent the frame from warping from all the heat.
Here is a pic of probably the best weld I did over the whole project. Don’t laugh to hard, I haven’t welded in over 10yrs and I was never an expert at it. However I finally did figure it out later but the project was almost done. Oh well! I did get plenty of penetration (which is what matters the most).
Here’s a couple spots on the back side I did. For some reason the factory only welded certain sections on the back and not all the seams?
Here we have the welded frame.
Lastly the end result. I love how the paint hides the ugliness. LOL
Now the final test. With my dads assistance again, we grabbed the pry bars and began to twist again. The damn frame wouldn’t budge an inch. We were both struggling to make it twist this time. NO NADA! .
Now that’s it’s back on the car, all I can say is HELL YEA! This is how the car should have come from the factory. There are no unnecessary vibrations or anything. The car still drives smooth and not harsh. Now I need to check my engine mounts.
I have the Jim Lab nylon diff bushings. These stiffened things up nicely without any vibrations. Then late last year I installed new pillow ball bushings. Guys/gals if you have high mileage, it is an absolute must that you check and replace the pillow *****. I’m serious the car felt like it was brand new again and made the biggest and most noticeable difference. Also this combination has eliminated most of my wheel hop (but not all of it on the street). I then figured I would install some nylon bushings for the longitudinal arms to further help with the wheel hop. They did help some but not as well as I expected. However, the car did feel more solid. The only problem I had now was the tranny movement under hard acceleration. With everything else solid, I thought that my PPF may be cracked. So I removed it and to my surprise, it wasn’t. I thought why does it move so much then? With assistance from my dad, I grabbed two pry bars and we both began to twist the PPF from both ends. I was trying to simulate the torque twist of the engine (which we did). The PPF had a surprising amount of give. More that I thought was necessary! It would appear that Mazda really did design the suspension to load up. While the frame was out, I thought what the hell, lets reinforce it and see what happens.
I searched over the forum and couldn’t find any pics of anyone who had done a previous reinforcement.
This first pic just shows the frame in it’s raw state with some paint ground off in the sections that were to be welded.
The next few series of pics just shows my approach and layout of the plates I was going to weld in place. There is a reason I did it this way and didn’t use a long solid piece.
Now you can’t tell by the pics but the PPF isn’t perfectly flat. That’s why I had to cut smaller pieces to fit in certain locations. Staggering the plates creating more weld points should make it even stronger than just one solid piece. Well at least that’s my theory. I welded each plate at a time as to prevent the frame from warping from all the heat.
Here is a pic of probably the best weld I did over the whole project. Don’t laugh to hard, I haven’t welded in over 10yrs and I was never an expert at it. However I finally did figure it out later but the project was almost done. Oh well! I did get plenty of penetration (which is what matters the most).
Here’s a couple spots on the back side I did. For some reason the factory only welded certain sections on the back and not all the seams?
Here we have the welded frame.
Lastly the end result. I love how the paint hides the ugliness. LOL
Now the final test. With my dads assistance again, we grabbed the pry bars and began to twist again. The damn frame wouldn’t budge an inch. We were both struggling to make it twist this time. NO NADA! .
Now that’s it’s back on the car, all I can say is HELL YEA! This is how the car should have come from the factory. There are no unnecessary vibrations or anything. The car still drives smooth and not harsh. Now I need to check my engine mounts.
#6
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Every PPF I've ever seen break fails at the ears where it bolts to the diff; they break off. If that area isn't the one heavily reinforced you're not going to see much improvement.
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Originally Posted by DamonB
Every PPF I've ever seen break fails at the ears where it bolts to the diff; they break off. If that area isn't the one heavily reinforced you're not going to see much improvement.
John
#12
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Originally Posted by Jodeny
Very true- however if there is less flex in the ppf then the ears won't snap nearly as easily.
Next time you're at dinner pick up a fork by its ends and twist it. It doesn't matter how much you strengthen the stem of the fork, the weakest point (also the greatest concentration of stress) is still where the prongs meet the stem. That is where you're failure will occur even if you use a phone pole as a stem.
#13
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Here is one of the places that I welded on my PPF (Red circle). As DamonB stated The places that they tend to crack is on the fingers. I think I put 7-8 plates of similar sizes on mine. The brace that goes through the PPf even has marks on it from twisting so much from a busted drivers side motor mount.
Notice anything else wrong with this pic?
Notice anything else wrong with this pic?
Last edited by oorx7; 04-07-06 at 10:06 AM.
#15
Custom or Nothing
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Ding Ding, you are correct sir.
I think that from having a broken motor mount caused the PPF to start to crack, wich must of started some hair line cracking in the diff case. After making a solid motor mount, welding up the PPF, Drag slicks and sticky surface of a drag strip, sent the diff to meet his maker. Keep in mind I was only making around 340hp to the wheels at this time.
I think that from having a broken motor mount caused the PPF to start to crack, wich must of started some hair line cracking in the diff case. After making a solid motor mount, welding up the PPF, Drag slicks and sticky surface of a drag strip, sent the diff to meet his maker. Keep in mind I was only making around 340hp to the wheels at this time.
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Originally Posted by DamonB
I think not. If the PPF typically twists along its length slightly (which it does) absorbing some of the shock then by making the length of the frame stronger you concentrate the stresses even more at the mounting ears since they are the only parts that are flexing much now. I'm absolutely certain this modified PPF is stiffer than stock, but my guess is its fatigue life will be drastically shorter. It will feel great until it breaks in the same place they all do and it will most likely break sooner if its put to the test.
[/QUOTE]Next time you're at dinner pick up a fork by its ends and twist it. It doesn't matter how much you strengthen the stem of the fork, the weakest point (also the greatest concentration of stress) is still where the prongs meet the stem. That is where you're failure will occur even if you use a phone pole as a stem.[/QUOTE]
I eat with my hands.. <grin>
John
#19
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Originally Posted by oorx7
I think that from having a broken motor mount caused the PPF to start to crack, wich must of started some hair line cracking in the diff case.
At last week's autox I had so much grip on the fresh race rubber that even with a 7000 rpm launch I could not break the tires loose; the car just went. I have a stockish clutch and as I tried more and more rpm it would slip a little as I stepped off of it but the car launched with no hop or vibration whatsover. Completely stock mounts and drivetrain with 240 to the ground.
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Originally Posted by DamonB
If the engine or diff mounts are worn much at all then the PPF is under tremendously more stress and of course the hop is much worse.
At last week's autox I had so much grip on the fresh race rubber that even with a 7000 rpm launch I could not break the tires loose; the car just went. I have a stockish clutch and as I tried more and more rpm it would slip a little as I stepped off of it but the car launched with no hop or vibration whatsover. Completely stock mounts and drivetrain with 240 to the ground.
At last week's autox I had so much grip on the fresh race rubber that even with a 7000 rpm launch I could not break the tires loose; the car just went. I have a stockish clutch and as I tried more and more rpm it would slip a little as I stepped off of it but the car launched with no hop or vibration whatsover. Completely stock mounts and drivetrain with 240 to the ground.
I got rid of mine by reinforcing the ppf, replacing the rear pillowballs and adding tein ha's
John
#21
Lives on the Forum
Originally Posted by Jodeny
Thats why I used angle iron to stregnthen the ears as well. Still holding up after 5 years of HARD abuse.
If I were doing it I'd take some 1/8" steel plate (the blue and pink) and cut it into strips about an inch or so wide. The side of the strips that weld to the PPF would need to be cut to shape so as to mate with it properly and then I'd weld them to the PPF (green) as well as eachother where they meet at the rear. They wouldn't interfere with the bolts or the hole the chassis brace passes through and would make the weak area much, much stronger for little weight or work.
I know the pic sucks but just imagine welded on flanges sticking straight out from the side of the PPF.
#23
Originally Posted by oorx7
Did it brake in the same place as mine, Because all of my internals seem to be fine?
my actual differential is what broke. the housing is fine. all the teeth on the diff were flat
#24
Banned
I would think that one piece would be stronger than welding smaller pieces in place. however, yours will still be stronger than the stock version. But I can't really back up my claim in strength, I'm not a welder by trade Either way, good job, looks killer
#25
Originally Posted by sevensix
nice work
just shows theres plenty more to improve in a 15 yr old design
wonder how this compares to the mazdaspeed ppf
just shows theres plenty more to improve in a 15 yr old design
wonder how this compares to the mazdaspeed ppf
Thx! I don't know the comparison but the steel cost me $22.00. So I saved a bit doing it myself. I have a lot of steel let to do other stuff with.
Oh yea I forgot to add, I used 1/8" steel. I should have weighed the frame before hand. It's a bit heavier now. I would say is weighs 15-20 lbs more.