Rods
#41
Registered
I'd venture to say that you can make a sufficiently stout 'H' beam lighter than the 'I' profile but the 'I' will always be stiffer overall. It's all about where you put the mass. Just a guess from some old statics knowledge.
Last edited by Cole2534; 12-03-2015 at 11:39 AM.
#42
Registered
Reason why HP1 keeps mentioning TDC at overlap is because there is little to no pressure (sometimes a slight vacuum) as the piston just rose and is now being yanked back down. Ie: Just after TDC the crank is trying to pull the rod cap away from the rod and piston. This is why we need killer bolts, not just good rods.
At BDC the forces are trying to push the piston and rod beam into the rod's cap.
Imagine if you will - throw a 1lb rock out straight as possible and yank it back while it;s still in the air, as slow as you can. Now, shoot that 1lb rock out of a cannon and as the rope just becaomes taught, yank it back as soon as you can. Your shoulder will seperate from your body.
Look at the following animated pic for a bit, and then imagine it spinning many times fast. You'll then see how the piston and rod are still wanting to go upward with much force, while the rod's cap and bolts are trying to pull it down.
#43
Registered
Here's a better animation, Starts at 500rpm and goes up to 7k rpm by the end.
https://www.youtube.com/watch?v=s5n-2gb8yfM&feature=player_embedded
https://www.youtube.com/watch?v=s5n-2gb8yfM&feature=player_embedded
#44
Registered
Compression and power stroke help push things together.
Reason why HP1 keeps mentioning TDC at overlap is because there is little to no pressure (sometimes a slight vacuum) as the piston just rose and is now being yanked back down. Ie: Just after TDC the crank is trying to pull the rod cap away from the rod and piston. This is why we need killer bolts, not just good rods.
At BDC the forces are trying to push the piston and rod beam into the rod's cap.
Imagine if you will - throw a 1lb rock out straight as possible and yank it back while it;s still in the air, as slow as you can. Now, shoot that 1lb rock out of a cannon and as the rope just becaomes taught, yank it back as soon as you can. Your shoulder will seperate from your body.
Look at the following animated pic for a bit, and then imagine it spinning many times fast. You'll then see how the piston and rod are still wanting to go upward with much force, while the rod's cap and bolts are trying to pull it down.
Reason why HP1 keeps mentioning TDC at overlap is because there is little to no pressure (sometimes a slight vacuum) as the piston just rose and is now being yanked back down. Ie: Just after TDC the crank is trying to pull the rod cap away from the rod and piston. This is why we need killer bolts, not just good rods.
At BDC the forces are trying to push the piston and rod beam into the rod's cap.
Imagine if you will - throw a 1lb rock out straight as possible and yank it back while it;s still in the air, as slow as you can. Now, shoot that 1lb rock out of a cannon and as the rope just becaomes taught, yank it back as soon as you can. Your shoulder will seperate from your body.
Look at the following animated pic for a bit, and then imagine it spinning many times fast. You'll then see how the piston and rod are still wanting to go upward with much force, while the rod's cap and bolts are trying to pull it down.
I'll throw this one out there. Who has had a stock gm Rod fail?
#45
Registered
Compression and power stroke help push things together.
Reason why HP1 keeps mentioning TDC at overlap is because there is little to no pressure (sometimes a slight vacuum) as the piston just rose and is now being yanked back down. Ie: Just after TDC the crank is trying to pull the rod cap away from the rod and piston. This is why we need killer bolts, not just good rods.
At BDC the forces are trying to push the piston and rod beam into the rod's cap.
Imagine if you will - throw a 1lb rock out straight as possible and yank it back while it;s still in the air, as slow as you can. Now, shoot that 1lb rock out of a cannon and as the rope just becaomes taught, yank it back as soon as you can. Your shoulder will seperate from your body.
Look at the following animated pic for a bit, and then imagine it spinning many times fast. You'll then see how the piston and rod are still wanting to go upward with much force, while the rod's cap and bolts are trying to pull it down.
Reason why HP1 keeps mentioning TDC at overlap is because there is little to no pressure (sometimes a slight vacuum) as the piston just rose and is now being yanked back down. Ie: Just after TDC the crank is trying to pull the rod cap away from the rod and piston. This is why we need killer bolts, not just good rods.
At BDC the forces are trying to push the piston and rod beam into the rod's cap.
Imagine if you will - throw a 1lb rock out straight as possible and yank it back while it;s still in the air, as slow as you can. Now, shoot that 1lb rock out of a cannon and as the rope just becaomes taught, yank it back as soon as you can. Your shoulder will seperate from your body.
Look at the following animated pic for a bit, and then imagine it spinning many times fast. You'll then see how the piston and rod are still wanting to go upward with much force, while the rod's cap and bolts are trying to pull it down.
#46
Registered
Now, with the 4.25" stroke motors how many stock rods where kept ? Probably not many, therefore we really won't know. Most step up to a 6.385 rod (or longer in some cases) and thus aftmkt rods and bolts.
Longer strokes = more piston speed.
#47
Registered
Well, we know how many stock 502 shortblocks with GM 7/16" 6.135 rod has been hammerd and all has been well. 800+hp even. Everyone remember, 4.00 stroke. When these are ever torn down, many people will rebuild with a stronger rod bolt, just because.
Now, with the 4.25" stroke motors how many stock rods where kept ? Probably not many, therefore we really won't know. Most step up to a 6.385 rod (or longer in some cases) and thus aftmkt rods and bolts.
Longer strokes = more piston speed.
Now, with the 4.25" stroke motors how many stock rods where kept ? Probably not many, therefore we really won't know. Most step up to a 6.385 rod (or longer in some cases) and thus aftmkt rods and bolts.
Longer strokes = more piston speed.
Back in the day I used to play around with Pontiacs. Back then nobody was putting Chevy rods on a Pontiac crank and there was no aftermarket parts for them. We would use stock Chrysler Rod bolt on the Pontiac rods 1200hp+ and spin them to the moon and never had any issues unless the tune-up was off and then parts we go flying...
#48
Registered
Scat makes a cheap cast steel 4.25" crank that can take a 6.135 rod. Only a few I've seen use this. I wouldn't bother.
#49
Registered
Ive seen a GM rod come apart at 6000rpm in a buddy of mines cat. It wasnt pretty.
The other thing i think that plays a role. Take 2 engines, both identical 900hp for example.
First engine goes in a boat that runs up and down the river all day, encountering the occasional pontoon wake. He runs hard, lots of wot time.
Engine 2, goes in a boat, that runs the ocean, great lakes, etc. Hes out there every weekend working the throttle like bob saccenti in and out of rough waters. His engine is rapidly decelerating, and accelerating quite often.
Which ones gonna be harder on rods, or more likely to break one ?
Start talking long stroke, long rod, heavy piston fire breathers beating it up offshore, you def dont want some ebay special rods in there
The other thing i think that plays a role. Take 2 engines, both identical 900hp for example.
First engine goes in a boat that runs up and down the river all day, encountering the occasional pontoon wake. He runs hard, lots of wot time.
Engine 2, goes in a boat, that runs the ocean, great lakes, etc. Hes out there every weekend working the throttle like bob saccenti in and out of rough waters. His engine is rapidly decelerating, and accelerating quite often.
Which ones gonna be harder on rods, or more likely to break one ?
Start talking long stroke, long rod, heavy piston fire breathers beating it up offshore, you def dont want some ebay special rods in there
#50
Registered
Ive seen a GM rod come apart at 6000rpm in a buddy of mines cat. It wasnt pretty.
The other thing i think that plays a role. Take 2 engines, both identical 900hp for example.
First engine goes in a boat that runs up and down the river all day, encountering the occasional pontoon wake. He runs hard, lots of wot time.
Engine 2, goes in a boat, that runs the ocean, great lakes, etc. Hes out there every weekend working the throttle like bob saccenti in and out of rough waters. His engine is rapidly decelerating, and accelerating quite often.
Which ones gonna be harder on rods, or more likely to break one ?
Start talking long stroke, long rod, heavy piston fire breathers beating it up offshore, you def dont want some ebay special rods in there
The other thing i think that plays a role. Take 2 engines, both identical 900hp for example.
First engine goes in a boat that runs up and down the river all day, encountering the occasional pontoon wake. He runs hard, lots of wot time.
Engine 2, goes in a boat, that runs the ocean, great lakes, etc. Hes out there every weekend working the throttle like bob saccenti in and out of rough waters. His engine is rapidly decelerating, and accelerating quite often.
Which ones gonna be harder on rods, or more likely to break one ?
Start talking long stroke, long rod, heavy piston fire breathers beating it up offshore, you def dont want some ebay special rods in there