I am about to build a triangulated 4 link set up for the rear of my Lux.
Obviously the lower links have to be super strong for when the weight of the truck comes down on them on a rock, so I am making them out of 38mm solid 4140 rod.
Now for the uppers, can I get away with just using mild steel pipe with weld in bungs to save a few bucks?
The uppers only have to deal with the torque from the diff right?
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Link Material
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Link Material
R.I.P Brock Fontanini 28-3-06 - 16-2-08
www.teamcarnage.net
www.teamcarnage.net
gday mate, im halfway through doing this same conversion, i have used 1 1/4inch solid stainless for the lowers (was supposed to have been 4140 but should be ok i think) and 1 1/4inch seemless tube with 10mm wall with weld in bungs. I used a really good program to work out the lengths, angles etc. let me know if u want.
i would post pics but dont know how[/u]
i would post pics but dont know how[/u]
Hey one_waz could i get a copy of that program to work out link lengths.
i have solid 7000 series alloy links think 38mm OD
im planning on changing to 45mm OD links with johnny joints
Evan
i have solid 7000 series alloy links think 38mm OD
im planning on changing to 45mm OD links with johnny joints
Evan
www.energizedracing.com
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You would be correct.uninformed wrote:i always thought that all things being equal (material and OD) solid was stronger than hollow.....brad-chevlux wrote:pretty sure you'll find suitably walled tube will be stringer then solid bar.
Serg
Last time this topic surfaced, the denouncers of solid bar were quite vague on their reasons why.
Surely solid is stronger than hollow for material of equal size... Maybe it's that hollow tube is stronger on a weight-for-weight basis, and people have that confused with diameter?KiwiBacon wrote:You would be correct.uninformed wrote:i always thought that all things being equal (material and OD) solid was stronger than hollow.....brad-chevlux wrote:pretty sure you'll find suitably walled tube will be stringer then solid bar.
Serg
Last time this topic surfaced, the denouncers of solid bar were quite vague on their reasons why.
This is not legal advice.
We'll wait and see if the same people come back.chimpboy wrote:Surely solid is stronger than hollow for material of equal size... Maybe it's that hollow tube is stronger on a weight-for-weight basis, and people have that confused with diameter?
Their argument was that solid is mysteriously weaker and more brittle than a hollow.
Does it get stronger and stronger as it gets more and more hollow?KiwiBacon wrote:We'll wait and see if the same people come back.chimpboy wrote:Surely solid is stronger than hollow for material of equal size... Maybe it's that hollow tube is stronger on a weight-for-weight basis, and people have that confused with diameter?
Their argument was that solid is mysteriously weaker and more brittle than a hollow.
This is not legal advice.
Either that or it gets stronger and stronger as the walls get thicker. But when the hole in the middle disappears it suddenly turns to custard.chimpboy wrote:Does it get stronger and stronger as it gets more and more hollow?KiwiBacon wrote:We'll wait and see if the same people come back.chimpboy wrote:Surely solid is stronger than hollow for material of equal size... Maybe it's that hollow tube is stronger on a weight-for-weight basis, and people have that confused with diameter?
Their argument was that solid is mysteriously weaker and more brittle than a hollow.
We need to produce some 50mm tube with 24.98mm wall thickness. That'd be awesomely strong.
Road Ranger
the argument has to do with surface area, although I think some may be confused. Solid is going to be stronger than hollow, granted, but heavy wall hollow will be lighter and in certain applications more than strong enough.
some people employ the same principle by using say hex instead of round
if I ever get around to linking my shit I think I will use I beams
some people employ the same principle by using say hex instead of round
if I ever get around to linking my shit I think I will use I beams
Hex instead of round?Tiny wrote:the argument has to do with surface area, although I think some may be confused. Solid is going to be stronger than hollow, granted, but heavy wall hollow will be lighter and in certain applications more than strong enough.
some people employ the same principle by using say hex instead of round
Good if you need to put a spanner on it I guess.I posted this similarl concept on pirate last week. In jest of course.Tiny wrote: if I ever get around to linking my shit I think I will use I beams
The larger the diameter, the "stronger" it is WHEN THE WEIGHT IS THE SAME.
So thin wall large dia tube is stronger than thick wall small dia tube.
BUT that's the strength of the tube for bending, not for being crushed when you land on a rock. Crushing the wall is a different issue (large thin wall would be bad - eaier to crush due to thickness, and reduced radius)
I would pick the absolute largest diameter you can, with the thickest wall you can, within the weight you need.
I would prefer diameter over thickness of wall.
Solid is fine, if you can bear the weght penalty. If you can increase the dia though - do that.
Paul
So thin wall large dia tube is stronger than thick wall small dia tube.
BUT that's the strength of the tube for bending, not for being crushed when you land on a rock. Crushing the wall is a different issue (large thin wall would be bad - eaier to crush due to thickness, and reduced radius)
I would pick the absolute largest diameter you can, with the thickest wall you can, within the weight you need.
I would prefer diameter over thickness of wall.
Solid is fine, if you can bear the weght penalty. If you can increase the dia though - do that.
Paul
Lexus LX470 - hrrm Winter Tyres
Gone - Cruiser HZJ105 Turbo'd Locked & Lifted
Gone - 3L Surf
Gone - Cruiser HZJ105 Turbo'd Locked & Lifted
Gone - 3L Surf
to get a bit techy for a minute, it's the second moment of area that is important. Essentially when a object bends to inside of the bend is under compression and the outside under tension hence the material tensile properties are being put to work. This is what gives the tube it's strength. The inside is doing SFA to resist the bend.
So if really comes down to weight and hence dollars. If we assume a given cross sectional area. As the radius of the tube increases the thickness would decrease, there is an optimum point where the thickness is that small it starts to buckle just before that point is going to be the best (biggest raidus and small thickness) to provide resistance to bending. The problem we suffer is that we land on ours so hence the suffer external damage other then the static or plain dynamic load we apply.
So why is tube better then solid, because with solid you are paying for a lot of material which is essentially providing no strength benifit.anything over about 6mm wall thickness is getting on the extreme side.
So if really comes down to weight and hence dollars. If we assume a given cross sectional area. As the radius of the tube increases the thickness would decrease, there is an optimum point where the thickness is that small it starts to buckle just before that point is going to be the best (biggest raidus and small thickness) to provide resistance to bending. The problem we suffer is that we land on ours so hence the suffer external damage other then the static or plain dynamic load we apply.
So why is tube better then solid, because with solid you are paying for a lot of material which is essentially providing no strength benifit.anything over about 6mm wall thickness is getting on the extreme side.
;)
Well put.just cruizin' wrote:to get a bit techy for a minute, it's the second moment of area that is important. Essentially when a object bends to inside of the bend is under compression and the outside under tension hence the material tensile properties are being put to work. This is what gives the tube it's strength. The inside is doing SFA to resist the bend.
So if really comes down to weight and hence dollars. If we assume a given cross sectional area. As the radius of the tube increases the thickness would decrease, there is an optimum point where the thickness is that small it starts to buckle just before that point is going to be the best (biggest raidus and small thickness) to provide resistance to bending. The problem we suffer is that we land on ours so hence the suffer external damage other then the static or plain dynamic load we apply.
So why is tube better then solid, because with solid you are paying for a lot of material which is essentially providing no strength benifit.anything over about 6mm wall thickness is getting on the extreme side.
If you want to get really anal. You can point out that as diameter gets bigger, stiffness increases faster than strength (stiffness ~d^4, strength is d^3). So if we include impact absorbtion we get to the point where links have to be a whole lot stronger because they're stiffer which makes them suffer higher impact loading.
I'd probably use RHS. Because it's easily available in stronger grades (350 and 450MPa yeild) than pipe or tube without becoming so hard it becomes difficult to weld.
I wanted to put this in perspective for myself so I did some rough calculations. Assuming the same type of steel...
75mm drainpipe (assuming a wall thickness of 0.7mm), like ordinary zincalume pipe is roughly equivalent in weight to...
10mm solid round bar.
So if you picture those in your head, I think it's pretty clear which one is more rigid and "stronger", but also which one would survive a whack without taking any damage.
For even more visualisation, imagine 75mm solid round bar compared to the drainpipe... faaaaaarking heavy but anyone who thinks the drain pipe is stronger is crazy.
75mm drainpipe (assuming a wall thickness of 0.7mm), like ordinary zincalume pipe is roughly equivalent in weight to...
10mm solid round bar.
So if you picture those in your head, I think it's pretty clear which one is more rigid and "stronger", but also which one would survive a whack without taking any damage.
For even more visualisation, imagine 75mm solid round bar compared to the drainpipe... faaaaaarking heavy but anyone who thinks the drain pipe is stronger is crazy.
This is not legal advice.
Interesting that you say that.KiwiBacon wrote: I'd probably use RHS. Because it's easily available in stronger grades (350 and 450MPa yeild) than pipe or tube without becoming so hard it becomes difficult to weld.
One of the guys localy here in WA is going to use square hollow section to make his links.
I thought yeah why not, he reckons all the cool kids are going to laugh at him
R.I.P Brock Fontanini 28-3-06 - 16-2-08
www.teamcarnage.net
www.teamcarnage.net
Sounds like you've found a guy worth listening to.ausyota wrote:Interesting that you say that.KiwiBacon wrote: I'd probably use RHS. Because it's easily available in stronger grades (350 and 450MPa yeild) than pipe or tube without becoming so hard it becomes difficult to weld.
One of the guys localy here in WA is going to use square hollow section to make his links.
I thought yeah why not, he reckons all the cool kids are going to laugh at him
DOM tube is available in 450Mpa + and is weldable.ausyota wrote:Interesting that you say that.KiwiBacon wrote: I'd probably use RHS. Because it's easily available in stronger grades (350 and 450MPa yeild) than pipe or tube without becoming so hard it becomes difficult to weld.
One of the guys localy here in WA is going to use square hollow section to make his links.
I thought yeah why not, he reckons all the cool kids are going to laugh at him
If I remember rightly, you get about a 30% increase in mass using SHS (compared to pipe with the same diameter and wall thickness as the SHS). However SHS is stiffer, which is a bonus, but what about torsional strength?
_____________________________________________________________
RUFF wrote:Beally STFU Your becoming a real PITA.
OK - I'm crazy.chimpboy wrote:I wanted to put this in perspective for myself so I did some rough calculations. Assuming the same type of steel...
75mm drainpipe (assuming a wall thickness of 0.7mm), like ordinary zincalume pipe is roughly equivalent in weight to...
10mm solid round bar.
So if you picture those in your head, I think it's pretty clear which one is more rigid and "stronger", but also which one would survive a whack without taking any damage.
For even more visualisation, imagine 75mm solid round bar compared to the drainpipe... faaaaaarking heavy but anyone who thinks the drain pipe is stronger is crazy.
Take that pipe, and support it properly (you chose a VERY thin wall, so it needs a large support).
Now extend it as a 6m length.
They weigh the same.
Betchya the 10mm rod bends MUCH more than the pipe.
The pipe is "stiffer" than the rod.
But I think you may have gone too far one way.
Think of this example. I have racks on my ute - 2.5" press bend exhaust pipe. They'll hold a lot of weight, I've had 200 KG up there and they'll do a lot more than that.
Take the same weight in RHS, and you end up with 1" tube with 3mm wall. I wouldn't want to put 200KG on 1" RHS racks then brake hard.
Exhaust pipe is a great example of light, strong tube with a good wall / diameter ratio.
It's VERY strong in compression.
Paul
Lexus LX470 - hrrm Winter Tyres
Gone - Cruiser HZJ105 Turbo'd Locked & Lifted
Gone - 3L Surf
Gone - Cruiser HZJ105 Turbo'd Locked & Lifted
Gone - 3L Surf
I agree, that is what I was trying to say. To me it's obvious that the 10mm is much more bendy.me3@neuralfibre.com wrote:Now extend it as a 6m length.
They weigh the same.
Betchya the 10mm rod bends MUCH more than the pipe.
The last bit, I was talking about 75mm drain pipe vs 75mm solid.
This is not legal advice.
ausyota wrote:Interesting that you say that.KiwiBacon wrote: I'd probably use RHS. Because it's easily available in stronger grades (350 and 450MPa yeild) than pipe or tube without becoming so hard it becomes difficult to weld.
One of the guys localy here in WA is going to use square hollow section to make his links.
I thought yeah why not, he reckons all the cool kids are going to laugh at him
Got a couple of lengths of 50x50x4 sitting in my garage waiting to become my lowers. Cheap easy and strong as all get out, well, at least under a zook. From what I understand, it's a lot harder to bend/kink than tube too.
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|.........SUZUKI..........| ||'|";, ____.
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(@)'(@)"""''"**|(@)(@)*****''(@)
One other good thing about SHS is if you run it on edge i.e with the one corner down and one corner up, it will be allot more dent and kink resistant. Also when it comes to sold vs tube it is a balance. Solid bar kilo for kilo is no where near as strong as tube, but as said before tube can be dented easier, the trick is to find the happy medium. One other way is to stitch a web along the length of the link.
Jim
Jim
So anyway back to my original question...
I have my lowers (which have to handle impacts) sorted.
Will 32NB medium wall with weld in bungs in the ends be strong enough for the uppers?
I could go to 40NB but the bungs are 1 1/2" so to get a decent fit in 40NB I would need to go heavy wall (may not be a bad thing).
The local steel shop only has medium wall pipe in stock
I have my lowers (which have to handle impacts) sorted.
Will 32NB medium wall with weld in bungs in the ends be strong enough for the uppers?
I could go to 40NB but the bungs are 1 1/2" so to get a decent fit in 40NB I would need to go heavy wall (may not be a bad thing).
The local steel shop only has medium wall pipe in stock
R.I.P Brock Fontanini 28-3-06 - 16-2-08
www.teamcarnage.net
www.teamcarnage.net
There are two ways to answer that question.ausyota wrote:So anyway back to my original question...
I have my lowers (which have to handle impacts) sorted.
Will 32NB medium wall with weld in bungs in the ends be strong enough for the uppers?
I could go to 40NB but the bungs are 1 1/2" so to get a decent fit in 40NB I would need to go heavy wall (may not be a bad thing).
The local steel shop only has medium wall pipe in stock
The first is what engineers are paid to do. In depth analysis of the geometry and forces, ending with a recommendation.
The second way is to find a similar setup which has been well used and tested, then see if your links are at least as strong as those.
That will be easily strong enough.ausyota wrote:So anyway back to my original question...
I have my lowers (which have to handle impacts) sorted.
Will 32NB medium wall with weld in bungs in the ends be strong enough for the uppers?
I could go to 40NB but the bungs are 1 1/2" so to get a decent fit in 40NB I would need to go heavy wall (may not be a bad thing).
The local steel shop only has medium wall pipe in stock
We have used that material as upper links in many buggies and its never looked like failing...broken lots of other stuff though.
Probably the only way you would break that as an upper link is if you rolled and smacked the rear axles sideways and buckled one of the uppers.
Getting it engineered is another thing altogether though.
Sam
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