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  #21  
Old 05-18-2015, 03:28 PM
DavidBoren DavidBoren is offline
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That's the whole point of this, though. I'm trying to make the form of the motor fit the function of the vehicle.

I am trying to get everything working in concert. Engine design theory and architecture, cam profile and useable powerband, transmission gearing, rear axle ratio, suspension and brakes... Isn't the purpose of starting over to do everything over? Everything, for the most part, on the S-10 is set up from the factory to work as a system. Even though it's made from GM's leftover parts bin, some amount of engineering went into making sure that the parts selected meshed together for its intended purpose.

So, for me to change anything, I need to adjust all things. And since there is no single redeeming quality of the original S-10 worth saving (other than its compact chassis/body), I might as well design a whole new system, including an engine specifically designed for the rpm range and powerband I want, and a suspension set up for exactly how I feel a vehicle should handle.

When I see a 10k redline, I think "why" because I know it's possible to make the power sooner. And if you can't make enough power to do... ANYTHING you want... before 7500rpms, then you need less mass, not a higher redline.

My idea of reinventing the 6.0L with a 3.8x4.0 architecture vs the 4.0x3.6 bore and stroke is to shift the powerband left, favoring early torque production. The exact same crankshafts are used in OEM engines that spin to 7k rpms. I have no doubts, whatsoever, that any engine built using this crank will be in any way redline limited.

So, it's up to proper cam selection, valvetrain components, and transmission/axle gearing to best utilize a powerband that both comes on early, and can extend to 7k rpms.

Mind you, the torque will come on early compared to a 6.0L with the 3.6" crank. But it won't subtract from the upper limit of the same mid-stroke 6.0L, given proper valvetrain and cam selection... So I literally do not see a downside to building a undersquare 6.0L motor.

All that needs to be done is porting the heads to provide adequate air flow for six liters of displacement spinning at 7k rpms... Which I know is possible, even with the little valves.

Little valves and little pistons are easy to move, so the rotating mass will be able to rev as high as the big LS7 components, even with the LS7 using titanium.

Everyone always says that they want a broad powerband, and yet it seems no attention is ever paid to broadening it to the left. People go through great lengths to expand the powerband to the right, ever increasing the redline. And engine design and architecture reflects the chase for higher redlines with oversquare engines. Yet you can achieve roughly the same effect starting power production earlier.

3000-8500 powerband is 5500 useable rpms...

So is... 1500-7000...

Things that make you say, "hmm..."
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  #22  
Old 05-18-2015, 04:33 PM
DavidBoren DavidBoren is offline
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As a side note, using head flow numbers from TEA's website regarding their stage two ported 5.3L heads, and an online calculator provided by Wallace racing, the projected redline where head flow can no longer support the displacement at any higher rpms, is 8000. Playing with different VE inputs got readings between 7300 all the way to 9000. So, no matter what, with properly ported heads, the small bore can support six liters of displacement spinning all the way to 8k...

I have no intentions of spinning it that high, but for the sake of this discussion, I thought it to be relevant.

For comparison's sake, the 353ci oversquare engine proposed earlier, 4.125" x 3.3" bore and stroke, using stock LS7 head flow numbers, gives a max redline of 8,300 to 10,900... depending on what VE values you use.

@RodP, I can get 74.5mph in 2nd gear @ 6500rpms with a 1.88:1 second gear and 3.55 rear gears with a 25.7" tire. All of that is theoretical using the Wallace racing online calculator. Rims are based on 2006 z06 18x9 fronts and Toyo R888 275/35R18 tires. Transmission ratio is from the TKO600RR. I would like to use a 5spd transmission and stay around the 3.5:1 range for the rear. So the road race TKO and relatively mild rear gears archives the 70-75 mph in 2nd gear rule.

Same calculator, same tire diameter, same rear gear ratio, same 6500rpms, just changed to the .84:1 OD gear of the TKO600RR, and this predicts a top speed of 166mph. I think that will do just fine.

Last edited by DavidBoren; 05-19-2015 at 05:57 PM.
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  #23  
Old 05-21-2015, 08:50 PM
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Flash68 Flash68 is offline
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Quote:
Originally Posted by Ron Sutton View Post

While the 434" engines made the most power ... torque & horsepower ... they were too hard to drive fast. With 4" of stroke, the drivers were always struggling to get them off the corner optimally. They had to drive them with the proverbial egg under the throttle. That's doable occasionally ... but not consistently lap after lap when your adrenaline is up. The 355"-377" engines had way less tire spin challenges ... but just didn't make enough torque to accelerate the car off the corner optimally. The 383"/388" engines came of the corners hard, but laid over on the straights.
That's funny Ron. I started with a 377 and quickly discovered that was a big issue on both AutoX and road course. So, I decided to go overboard and skip all steps in between and go with a the big bore big 4" stroke 437"!

Quote:
Originally Posted by Ron Sutton View Post
The engines that were "just right" were big bore (4.125"-4.185") & medium stroke (3.750-ish). These 400"-410" engines were dominant.
So, what you're saying is.... Sprint Car engines FTW.

I really wanted to go with a 3.8ish stroke but decided to reuse all the parts with my used SB2.2 "deal" I found... smart? Maybe not... fun? Should be!

Quote:
Originally Posted by Matt.A View Post
I have a Camaro with a 454 cube LS7, and it never lugs out of corners versus my Coyote powered Mustang. However, put the two cars on a road course, and the less powerful Coyote motor is way more fun, despite being slower, simply because you can put your foot down and hold on almost all the time.
You shoulda bought a Miata like that Weld guy.

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Originally Posted by DavidBoren View Post

Maybe I am just retarded. But I'm under the impression that using a 4" stroke crankshaft will in no way limit my useable rpms.
For 99% of what are people are doing around here, I would have to agree with you.

Quote:
Originally Posted by DavidBoren View Post

Everyone always says that they want a broad powerband, and yet it seems no attention is ever paid to broadening it to the left. People go through great lengths to expand the powerband to the right, ever increasing the redline. And engine design and architecture reflects the chase for higher redlines with oversquare engines. Yet you can achieve roughly the same effect starting power production earlier.

3000-8500 powerband is 5500 useable rpms...

So is... 1500-7000...
A true 1500 to 7000 rpm range sounds very difficult to achieve. What would the specs of this engine look like?


Oh, and this is a winner:

Hunter S. Thompson said that men like big guns and fast cars because they push us to our limits, rather than us pushing the machine to its limits.


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  #24  
Old 05-21-2015, 10:44 PM
DavidBoren DavidBoren is offline
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What would a true 1500-7000 motor look like? I don't know. Hopefully it has a 3.78" bore and a 4" stroke. Lol.

But nobody knows what that motor looks like because nobody is working on extending the powerband to the left. We all know what it takes, or at least have an idea of what the motor with the 3000-8500 powerband looks like... if I had to take a guess, I would say it is probably oversquare.
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  #25  
Old 05-21-2015, 11:17 PM
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Quote:
Originally Posted by Flash68 View Post
A true 1500 to 7000 rpm range sounds very difficult to achieve. What would the specs of this engine look like?
Something like this.........



....but you start at zero RPM.
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  #26  
Old 05-22-2015, 09:57 AM
mikels mikels is offline
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Quote:
Originally Posted by DavidBoren View Post
What would a true 1500-7000 motor look like? I don't know. Hopefully it has a 3.78" bore and a 4" stroke. Lol.

But nobody knows what that motor looks like because nobody is working on extending the powerband to the left. We all know what it takes, or at least have an idea of what the motor with the 3000-8500 powerband looks like... if I had to take a guess, I would say it is probably oversquare.
It looks like this:

4.130 bore x 4 stroke
Rev limit @ 7500
Torque is nearly adequate - anywhere

Spent a lot of time optimizing combination for overall powerband.

Dave
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  #27  
Old 05-22-2015, 10:04 AM
mikels mikels is offline
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The other primary design criteria is DRIVEABILITY!

There are changes that could be made that would further increase power - to the right - but adversely affect driveability, so just not worth it.

Keep in mind this combination is what Mark Stielow runs in his cars, and is able to autocross in 1st gear (3.25 FDR) with precise control.

Combined with 700 rpm idle, pump-gas operation, no sags or other compromises in operation makes this a nearly perfect all-around package.

Dave
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  #28  
Old 05-22-2015, 10:27 AM
DavidBoren DavidBoren is offline
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That is a very sexy motor. And although impressive, it is more than I personally need. I also have some tingling fear of boosted LS7 blocks. No real reason. Haven't even heard that many horror stories about too much boost grenading the block. I just personally wouldn't do it. Note also, that I chose the small bore block specifically for its thicker cylinder sleeves. From what I understand, the LS7 has such thin sleeves that not even GM would put boost to it, and GM put a turbo on 4.3L V6. Lol.

Sweet engine though. Very impressive curve. Thank you for sharing this.
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  #29  
Old 05-22-2015, 10:56 AM
mikels mikels is offline
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Quote:
Originally Posted by DavidBoren View Post
That is a very sexy motor. And although impressive, it is more than I personally need. I also have some tingling fear of boosted LS7 blocks. No real reason. Haven't even heard that many horror stories about too much boost grenading the block. I just personally wouldn't do it. Note also, that I chose the small bore block specifically for its thicker cylinder sleeves. From what I understand, the LS7 has such thin sleeves that not even GM would put boost to it, and GM put a turbo on 4.3L V6. Lol.

Sweet engine though. Very impressive curve. Thank you for sharing this.
We've not broke one yet (with ~30 of them running around now starting in 2008). And our guinea pig Mark is not known for driving his cars gently......

The advantage of making really big power is you just can't make it for very long - run out of real estate.

Don't get me wrong, this combination would likely never pass GM's GED (Global Engine Durability) test - that and a 100K mile powertrain warranty prevent factory from ever offering this.

Key is optimized design with combination of high-quality parts and precision machining & assembly. These engines will be very unforgiving for carelessness.

Dave
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  #30  
Old 05-22-2015, 11:43 AM
DavidBoren DavidBoren is offline
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Relating back to what Hunter Thompson said about big guns and fast cars... These sorts of machines are not intended for the careless.

I am sure that the LS7 blocks hold up fine... All 30 of yours seem to be working. But I am my father's son. And we have a tendency to over-engineer things. We choose our mechanicals based on its ability to survive the apocalypse.

We aren't afraid of maintenance, nor do we shy away from or skimp on routine maintenance. But we prefer machines that can persevere and last. I understand that the parts you select will be a huge factor in long-term reliability, with the single biggest contribution to durability being the quality of prep and assembly.

Because we all know that if it's sloppily put together with poor tolerances, then even the best parts will not be reliable. And likewise, if you take your time and blueprint/ balance even mediocre components and assemble them to the proper tolerances, then you will have a damn dependable motor.

My grandpa won't ever own a motor with an aluminum block. He doesn't trust it. He also won't own a rifle he doesn't trust to work as a club, either. Ask him what he thinks about the M-16, or import cars for that matter (he views both with equal disdain). Lol.

Anyways, for my particular tastes and needs, I want an engine I can rely on and put some real miles through. And I don't need 7.0L for what I'm doing. If an undersquare 359" doesn't do what I expect/ want/ need, I will boost it (like everyone else who doesn't know how to make horsepower like a real man... another piece of wisdom from my grandpa).

As for the reliability issues associated with undersquare architecture, I think I can handle the increased heat load with a more efficient cooling system (larger radiator/ fan, oil cooler and oil squirters, etc). And high quality parts with a damn proper fit and balance should handle everything else.

Last edited by DavidBoren; 05-22-2015 at 01:06 PM.
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