Is a carbon roll cage impossible?
Discussion
The benefits of weight savings of a carbon roll cage are obvious.
But is is really impossible to make it so it functions like a tradisional steel one?
Are the current FIA approved roll cages steel due to regulations or due to superior performance?
A carbon roll cage must be possible.
What do you guys think/know?
But is is really impossible to make it so it functions like a tradisional steel one?
Are the current FIA approved roll cages steel due to regulations or due to superior performance?
A carbon roll cage must be possible.
What do you guys think/know?
My understanding is that it its strength isn't uniform and in the wrong direction its relatively brittle and the right one very strong but I suppose anything is possible. Not sure what its like to make tubes from and joining it once in a car may be an issue, its not like you can weld it and when the carbon tubs are made its done in a big oven under massive pressure.
And you cannot put the different layers of the carbon weave in different directions and thereby make it stronger in more directions?
I know basically nothing about this but I find interesting that it is impossible. Someone should be able to simulate the forces in a computer in order to find the optimal way of construction.
I know basically nothing about this but I find interesting that it is impossible. Someone should be able to simulate the forces in a computer in order to find the optimal way of construction.
ThomasSoerensen said:
And you cannot put the different layers of the carbon weave in different directions and thereby make it stronger in more directions?
Woven CF tubes as used in sports equipment tends to fail spectacularly when impacted against anything solid, you wouldn’t want that to happen if the next thing stopping the roof/floor/head interface is your head.If not of the woven type then what type are the constructions on monocoques then?
I agree completely that a structure designed to protect should not shatter on first impact.
Don't they make car and bike helmets of CF these days?
They should be able to take a bang and still protect.
I agree completely that a structure designed to protect should not shatter on first impact.
Don't they make car and bike helmets of CF these days?
They should be able to take a bang and still protect.
Edited by ThomasSoerensen on Friday 17th December 15:34
ThomasSoerensen said:
And you cannot put the different layers of the carbon weave in different directions and thereby make it stronger in more directions?
I know basically nothing about this but I find interesting that it is impossible. Someone should be able to simulate the forces in a computer in order to find the optimal way of construction.
Not impossible, just not as good as the popular solution. You could make it out of balsa wood if weight was the primary consideration. You could make it from cheese if flavour was important.I know basically nothing about this but I find interesting that it is impossible. Someone should be able to simulate the forces in a computer in order to find the optimal way of construction.
Every material has different compromises, and they are weighted differently for each application. Selecting the right one is just a question of which compromises leave you better-off overall.
Just a few of my ill thought out friday afternoon observations for the topic.....
Steel was choosen because it suited the requirements of the design and manufacture of a roll change (cheap, easy to manufacture and material properties suited). Trying to retro fit another material with different properties (square peg in round hole) to as design doesnt normally work either in terms of ability to manufacture, functionality or cost.
In order to make best use of a materials key properties (i.e. lightness) the design should be speicifcally applied to that material or the material specifically choosen for the design as its properties suit the purpose. I.e a monocoque design is used when working with carbon fibre and the cockpit is shaped as such it doesnt need a roll cage.
Oh and I just want to add that during my days as a formula student engineer at university I looked into creating a carbon fibre space frame chassis for our single seater car we designed and built but had the same issue.
Steel was choosen because it suited the requirements of the design and manufacture of a roll change (cheap, easy to manufacture and material properties suited). Trying to retro fit another material with different properties (square peg in round hole) to as design doesnt normally work either in terms of ability to manufacture, functionality or cost.
In order to make best use of a materials key properties (i.e. lightness) the design should be speicifcally applied to that material or the material specifically choosen for the design as its properties suit the purpose. I.e a monocoque design is used when working with carbon fibre and the cockpit is shaped as such it doesnt need a roll cage.
Oh and I just want to add that during my days as a formula student engineer at university I looked into creating a carbon fibre space frame chassis for our single seater car we designed and built but had the same issue.
Edited by R26Andy on Friday 17th December 15:47
ThomasSoerensen said:
If not of the woven type then what type are the constructions on monocoques then?
I agree completely that a structure designed to protect should not shatter on first impact.
Don't they make car and bike helmets of CF these days?
They should be able to take a bang and still protect.
You can reduce the chance of shattering/splitting of course by using composite materials and increasing the thickness and diameter (increasing diameter increases weight dramatically) of the tubing. The downside then is weight/size and the costs of production, its highly likely that studies have been undertaken and an alternative material (such as titanium if your rich enough, or steel if your not) proved more practical.I agree completely that a structure designed to protect should not shatter on first impact.
Don't they make car and bike helmets of CF these days?
They should be able to take a bang and still protect.
Edited by ThomasSoerensen on Friday 17th December 15:34
It like would you use magnesium alloy to make body panels? Sure why not, its light (lighter than aluminium), doesn’t corrode like steel and can be formed into many different shapes and strengths. Only small downside is that you could potentially be sat in a fire trap.
If your have an accident and roll 4 times with a steel cage, however bent and battered the cage becomes with each impact, it will still offer a good proportion of it's original strength in each consecutive roll.
A carbon fibre cage would offer excellent strength in the first impact, but because it is brittle and has a composite structure it would be little more that a bucket of shards by the time you hit the ground the 4th time, which would offer much protection.
Also, no matter how much you bend and bow a bit of steel pipe, it's very difficult to make a sharp edge (until it shears of course). Carbon fibre would be quite lethal in that respect.
That's how I see it anyway.
A carbon fibre cage would offer excellent strength in the first impact, but because it is brittle and has a composite structure it would be little more that a bucket of shards by the time you hit the ground the 4th time, which would offer much protection.
Also, no matter how much you bend and bow a bit of steel pipe, it's very difficult to make a sharp edge (until it shears of course). Carbon fibre would be quite lethal in that respect.
That's how I see it anyway.
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