D
DAMN YANKEE
Guest
There are essentially two classes of stock Gen2 Vipers out there to my mind, those with “hypereutectic” pistons and those without them. In 2000, Dodge wanted to add some additional performance to their new millennium Viper as well as higher efficiency and environmental standards. Among other things, the engineers decided to add new Hypereutectic pistons to all models. Those who bought Vipers in the production years 2000 and 20001 have hypereutectic pistons.
We read about hypereutectic (sometimes referred to as cast) pistons in the VCA threads all the time. These threads usually refer to concerns by Viper owners of those years as it relates to the limitations of cast pistons, especially in forced induction engines. These are real concerns and we need to understand why.
So what are hypereutectic pistons? Simply put they are cast pistons as opposed to being forged. Almost all pistons have aluminum in them. By being cast, hypereutectic pistons are able to have a much higher amount of silicon in the alloy. This silicon greatly increases the thermal stability and, as a result, these piston’s dimensional tolerances can be much tighter (most cast piston have a skirt clearance of approximately .0007 to .0009, forged about .005 to .007). Their expansion rates are much smaller. When cold, these pistons are much tighter than forged pistons (especially at the skirt and towards the top where the rings are), therefore they rock less, their rings seal better and they have less blow-by. They are lighter and quieter as well. And all that silicon makes them harder (unlike higher aluminum content in forged pistons) so that they don’t “scuff up” the cylinder walls when cold and in a low oil start-up. But, all that goodness comes at a price, and that price is brittleness. Hypereutectic are much more brittle than low silicon forged pistons.
Now, in a stock Viper, these pistons are well within operational spec and all the really superb aspects of hypereutectic pistons comes into play. The 2000 and 2001 Vipers have great pistons, no doubt. But, when we begin to modify our Vipers we have to recognize the very real limitations of the stock hypereutectic pistons. Simply put, if you are going to go over 700hp, you won’t be doing it with hypereutectic pistons and anything over 650 hp will require real tuning precision if you use hypereutectic pistons. Are hypereutectic pistons inherently weak or of inferior quality or used to cut costs, etc, etc? Not at all, they are a superior piston when used in the right application. Can you supercharge a Viper with hypereutectic pistons? Heck yea, mine is and its fabulous! If I have them and I run a supercharger do I need to constantly be on gaurd and worried? No and no, proper boost (5lbs no W/M or 6.5 lbs with W/M), proper A/F, proper timing/tune and you are going to have a great, stable rig!
What’s the danger? Detonation. What’s that? Lots of people talk about it, few people understand it. Detonation is simply one of two kinds of combustion:
Good Combustion (Deflagration):
In an internal combustion engine, we provide the right mixture of fuel and air. That mixture provides enough air and enough fuel to burn completely. That fuel is ignited in the cylinder by the spark plug just before the piston comes all the way up in its compression cycle to Top Dead Center (TDC). In other words, we are igniting the proper air mix in the last stages of compression. When all is well, the spark plug fires, creating a tiny ignition flame the size of the gap and, believe it or not, in the first few milliseconds that flame struggles to survive, then it spreads across the face of the compressed air/fuel and triggers a uniform, consistent fuel burn that carries over TDC and down through the power stroke. The burn is controlled and pressures rise smoothly and just as the piston starts its downward movement. Nice. People, when we talk about “ignition timing”, this is it! Where does the spark plug fire in the pistons cycle….. “Retarding” or “Advancing” the timing! There it is!
Bad Combustion (Detonation)
You can probably guess this, right? In detonation there is no uniform flame front moving efficiently through the air/fuel mix. Rather, due to a number of very identifiable and resolvable issues the unburned air/fuel mixture is compressed and instantly ignited creating enormous pressures. Simply put, we have an explosive, instantaneous explosion near the top of the piston stroke, too early, with a massive pressure wave. More than enough to blow up a hypereutectic piston. One can see, if we were to delay or “retard” the spark until the piston is farther through its cycle we could, inpart overcome detonation (piston already moving down through the stroke, etc.)
Lastly, we need to know that Detonation is NOT “pre-ignition” or “dieseling.” That is when forces other than the spark plug is firing off the fuel/air mixture. That’s why you can turn off your key on some cars and the engine still runs….poorly.
Forged pistons, on the other hand, can take this kind of abuse (though good timing is good timing) and keep on going. We should also note that a number of superb houses produce
remarkable new hypereutectic pistons for massive engines....very different than those found in those earlier Vipers!
What can we do about Detonation?
1. Better Timing (retarding)
2. Higher Octane and a
3. More perfect Air/Fuel
4. Cooler Fuel/Air incoming mix (W/M)
5. Cooler Plugs
6. Lower compression
and more....
We read about hypereutectic (sometimes referred to as cast) pistons in the VCA threads all the time. These threads usually refer to concerns by Viper owners of those years as it relates to the limitations of cast pistons, especially in forced induction engines. These are real concerns and we need to understand why.
So what are hypereutectic pistons? Simply put they are cast pistons as opposed to being forged. Almost all pistons have aluminum in them. By being cast, hypereutectic pistons are able to have a much higher amount of silicon in the alloy. This silicon greatly increases the thermal stability and, as a result, these piston’s dimensional tolerances can be much tighter (most cast piston have a skirt clearance of approximately .0007 to .0009, forged about .005 to .007). Their expansion rates are much smaller. When cold, these pistons are much tighter than forged pistons (especially at the skirt and towards the top where the rings are), therefore they rock less, their rings seal better and they have less blow-by. They are lighter and quieter as well. And all that silicon makes them harder (unlike higher aluminum content in forged pistons) so that they don’t “scuff up” the cylinder walls when cold and in a low oil start-up. But, all that goodness comes at a price, and that price is brittleness. Hypereutectic are much more brittle than low silicon forged pistons.
Now, in a stock Viper, these pistons are well within operational spec and all the really superb aspects of hypereutectic pistons comes into play. The 2000 and 2001 Vipers have great pistons, no doubt. But, when we begin to modify our Vipers we have to recognize the very real limitations of the stock hypereutectic pistons. Simply put, if you are going to go over 700hp, you won’t be doing it with hypereutectic pistons and anything over 650 hp will require real tuning precision if you use hypereutectic pistons. Are hypereutectic pistons inherently weak or of inferior quality or used to cut costs, etc, etc? Not at all, they are a superior piston when used in the right application. Can you supercharge a Viper with hypereutectic pistons? Heck yea, mine is and its fabulous! If I have them and I run a supercharger do I need to constantly be on gaurd and worried? No and no, proper boost (5lbs no W/M or 6.5 lbs with W/M), proper A/F, proper timing/tune and you are going to have a great, stable rig!
What’s the danger? Detonation. What’s that? Lots of people talk about it, few people understand it. Detonation is simply one of two kinds of combustion:
Good Combustion (Deflagration):
In an internal combustion engine, we provide the right mixture of fuel and air. That mixture provides enough air and enough fuel to burn completely. That fuel is ignited in the cylinder by the spark plug just before the piston comes all the way up in its compression cycle to Top Dead Center (TDC). In other words, we are igniting the proper air mix in the last stages of compression. When all is well, the spark plug fires, creating a tiny ignition flame the size of the gap and, believe it or not, in the first few milliseconds that flame struggles to survive, then it spreads across the face of the compressed air/fuel and triggers a uniform, consistent fuel burn that carries over TDC and down through the power stroke. The burn is controlled and pressures rise smoothly and just as the piston starts its downward movement. Nice. People, when we talk about “ignition timing”, this is it! Where does the spark plug fire in the pistons cycle….. “Retarding” or “Advancing” the timing! There it is!
Bad Combustion (Detonation)
You can probably guess this, right? In detonation there is no uniform flame front moving efficiently through the air/fuel mix. Rather, due to a number of very identifiable and resolvable issues the unburned air/fuel mixture is compressed and instantly ignited creating enormous pressures. Simply put, we have an explosive, instantaneous explosion near the top of the piston stroke, too early, with a massive pressure wave. More than enough to blow up a hypereutectic piston. One can see, if we were to delay or “retard” the spark until the piston is farther through its cycle we could, inpart overcome detonation (piston already moving down through the stroke, etc.)
Lastly, we need to know that Detonation is NOT “pre-ignition” or “dieseling.” That is when forces other than the spark plug is firing off the fuel/air mixture. That’s why you can turn off your key on some cars and the engine still runs….poorly.
Forged pistons, on the other hand, can take this kind of abuse (though good timing is good timing) and keep on going. We should also note that a number of superb houses produce
remarkable new hypereutectic pistons for massive engines....very different than those found in those earlier Vipers!
What can we do about Detonation?
1. Better Timing (retarding)
2. Higher Octane and a
3. More perfect Air/Fuel
4. Cooler Fuel/Air incoming mix (W/M)
5. Cooler Plugs
6. Lower compression
and more....
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