Engine rebuild/mild modifications on my '86 302 EFI

[Sparky]

Ford Performance sells the roller cam retainer kit for like $40, comes new with OE spec Dog bones, OE spec spider, OE spec bolts and lock washers. Its what I used on my build as I am going from a flat tappet build to a full roller build.

This is mine, 302H Ford Performance roller lifters (OE roller lifters with a ceramic check ball for 6,500 rpm stability) and Ford Performance roller lifter retainer kit.

https://forum.garysgaragemahal.com/file/n116518/306_Short_Block_128.jpg

Wow, nice looking engine. Looks like you are doing it right. I want to clean mine up and paint it like you are doing and also clean up the engine bay. The Ford retainer kit looks like a good option. I will probably go with that, thanks.

Well, I ordered a cam today. The general consensus seems to be that the Comp 35-512-8 is the best cam for my speed density truck and when I called Comp they agreed. It's fairly mild but should give a good improvement over my stock cam. They say 1200-5200rpm is the cam's range.

The next step is to decide on heads. I've got it narrowed down to the AFR 165cc, Trick Flow 170cc, Brodix ST 5.0 R 171cc and the Edelbrock E-Street 170cc.The prices range from about $2000 for the AFRs to about $1200 for the E-streets with the other two in the middle. My questions are mostly concerning intake valve size and combustion chamber size. Some offer an intake valve of either 2.02" or 1.90". For low end torque should I be using the smaller valve? For combustion chamber, is smaller better? What is too small? The sizes of combustion chambers offered for the above heads range from 61cc to 55cc. I'm not sure how to figure the new compression ratio since I can't find any good info on the chamber size of my current E5TE heads. I believe the stock compression ratio for my truck is 9.0 to 1. Any help on the above questions would be appreciated. If you have any comments on the heads I would like to hear them. I am looking for the most bang for my buck, not necessarily the absolute best performance.

[Rusty_S85]

Well, I ordered a cam today. The general consensus seems to be that the Comp 35-512-8 is the best cam for my speed density truck and when I called Comp they agreed. It's fairly mild but should give a good improvement over my stock cam. They say 1200-5200rpm is the cam's range.

The next step is to decide on heads. I've got it narrowed down to the AFR 165cc, Trick Flow 170cc, Brodix ST 5.0 R 171cc and the Edelbrock E-Street 170cc.The prices range from about $2000 for the AFRs to about $1200 for the E-streets with the other two in the middle. My questions are mostly concerning intake valve size and combustion chamber size. Some offer an intake valve of either 2.02" or 1.90". For low end torque should I be using the smaller valve? For combustion chamber, is smaller better? What is too small? The sizes of combustion chambers offered for the above heads range from 61cc to 55cc. I'm not sure how to figure the new compression ratio since I can't find any good info on the chamber size of my current E5TE heads. I believe the stock compression ratio for my truck is 9.0 to 1. Any help on the above questions would be appreciated. If you have any comments on the heads I would like to hear them. I am looking for the most bang for my buck, not necessarily the absolute best performance.

Be careful with the E-street heads, unless they changed when I looked at them years ago they are not for hydraulic roller cam engines. I think its the heads arent cut for heavier duty valve springs to keep the roller lifter under control.

If you are wanting low end torque for a 302 opt for the 1.90" valve, it also is more forgiving with OE style pistons as the 1.90" valves will fit the OE piston valve notches while the 2.02" valves will not and will require fly cutting the piston or going with a dished piston. The 1.90" valve will also be better for street use on a 302.

On the E5TE heads as far as chamber size and all that, the following is the site I use for OE Ford cylinder head specs.

https://www.carbdford.com/tech/flowdata.htm

They dont have specs for your specific heads but looking online it appears your E5TE heads are 62 - 65 cc chambers.

As far as figuring out compression you have to know what your deck clearance will be and go from there.

If you go a similar route as I did this is what you would be looking at

flat top hyper pistons with 8cc valve reliefs

4.030" bore

4.100" x 0.039" head gasket

0 deck

63cc heads

8.89:1 compression.

With AFR cylinder heads the 165 Renegade with 58cc heads you would be looking at 9.42:1 compression.

Now if you have like me 0.040" quench and not zero deck which is right in the middle of ideal quench of 0.038" - 0.042" with 63cc heads you are looking at 8.87:1 compression

With AFR cylinder heads you would be looking at 9.40:1 compression.

My 302 is bored 0.040" over so my bore is 4.040" with 4.100" x 0.039" head gasket and 0.001" deck clearance for 0.040" quench with Renegade 165 heads with 58cc chambers which gives me 9.44:1 which is close enough for my 9.50:1 goal which is what the 5.0 Explorer engines were rated at with GT40 heads was 9.5:1.

Thing you have to look at is what compression your cam wants and go for that cause a cam with more over lap will bleed compression off and youll need more static compression.

This is what DD2000 came up with if you run the AFR 165 heads with 9.40:1 compression with a 600cfm 4V carb, small tube headers with mufflers and the 35-512-8 roller cam.

Peak hp 388 @ 6,000

Peak trq 397 @ 4,500

With stock manifolds you would be looking at the following

Peak hp 324 @ 5,500

Peak trq 355 @ 3,500-4,000

To compare your cam to mine

35-512-8

RPM operating range 1,200 - 5,200

114* LSA

110* ICL

206*/212* @ 0.050" lift

0.480"/0.480" valve lift

HR-216-325-2S-12

RPM operating range 1,400 - 5,400

RPM cruise 2,400 - 3,000

valve float 6000

112* LSA

107* ICL

117* ECL

216*/224* @ 0.050" lift

0.520"/0.542" valve lift

Thats where mine makes a little bit more power than your cam, the extra lift makes use of the most flow from the AFR heads. Your 0.480" lift would still result in the AFR heads out flowing your OE castings.

This first one is your build with the 35-512-8 cam and AFR Renegade 165 cylinder heads

This second one is yours the diamond marked lines vs my build to show a comparison of the torque curve.

Remember that is with a 600cfm 4V carb. I dont know what the flow rate of the factory throttle body, I know there were two different sizes a 58mm and a 60mm and I know people argue between 800cfm and 1,000cfm. This is a comparison chart with sequential EFI with 1,000 cfm but it will be a big guess still and goes to show the output is only as accurate as your input information.

 

[Sparky]

Well, I ordered a cam today. The general consensus seems to be that the Comp 35-512-8 is the best cam for my speed density truck and when I called Comp they agreed. It's fairly mild but should give a good improvement over my stock cam. They say 1200-5200rpm is the cam's range.

The next step is to decide on heads. I've got it narrowed down to the AFR 165cc, Trick Flow 170cc, Brodix ST 5.0 R 171cc and the Edelbrock E-Street 170cc.The prices range from about $2000 for the AFRs to about $1200 for the E-streets with the other two in the middle. My questions are mostly concerning intake valve size and combustion chamber size. Some offer an intake valve of either 2.02" or 1.90". For low end torque should I be using the smaller valve? For combustion chamber, is smaller better? What is too small? The sizes of combustion chambers offered for the above heads range from 61cc to 55cc. I'm not sure how to figure the new compression ratio since I can't find any good info on the chamber size of my current E5TE heads. I believe the stock compression ratio for my truck is 9.0 to 1. Any help on the above questions would be appreciated. If you have any comments on the heads I would like to hear them. I am looking for the most bang for my buck, not necessarily the absolute best performance.

Be careful with the E-street heads, unless they changed when I looked at them years ago they are not for hydraulic roller cam engines. I think its the heads arent cut for heavier duty valve springs to keep the roller lifter under control.

If you are wanting low end torque for a 302 opt for the 1.90" valve, it also is more forgiving with OE style pistons as the 1.90" valves will fit the OE piston valve notches while the 2.02" valves will not and will require fly cutting the piston or going with a dished piston. The 1.90" valve will also be better for street use on a 302.

On the E5TE heads as far as chamber size and all that, the following is the site I use for OE Ford cylinder head specs.

https://www.carbdford.com/tech/flowdata.htm

They dont have specs for your specific heads but looking online it appears your E5TE heads are 62 - 65 cc chambers.

As far as figuring out compression you have to know what your deck clearance will be and go from there.

If you go a similar route as I did this is what you would be looking at

flat top hyper pistons with 8cc valve reliefs

4.030" bore

4.100" x 0.039" head gasket

0 deck

63cc heads

8.89:1 compression.

With AFR cylinder heads the 165 Renegade with 58cc heads you would be looking at 9.42:1 compression.

Now if you have like me 0.040" quench and not zero deck which is right in the middle of ideal quench of 0.038" - 0.042" with 63cc heads you are looking at 8.87:1 compression

With AFR cylinder heads you would be looking at 9.40:1 compression.

My 302 is bored 0.040" over so my bore is 4.040" with 4.100" x 0.039" head gasket and 0.001" deck clearance for 0.040" quench with Renegade 165 heads with 58cc chambers which gives me 9.44:1 which is close enough for my 9.50:1 goal which is what the 5.0 Explorer engines were rated at with GT40 heads was 9.5:1.

Thing you have to look at is what compression your cam wants and go for that cause a cam with more over lap will bleed compression off and youll need more static compression.

This is what DD2000 came up with if you run the AFR 165 heads with 9.40:1 compression with a 600cfm 4V carb, small tube headers with mufflers and the 35-512-8 roller cam.

Peak hp 388 @ 6,000

Peak trq 397 @ 4,500

With stock manifolds you would be looking at the following

Peak hp 324 @ 5,500

Peak trq 355 @ 3,500-4,000

To compare your cam to mine

35-512-8

RPM operating range 1,200 - 5,200

114* LSA

110* ICL

206*/212* @ 0.050" lift

0.480"/0.480" valve lift

HR-216-325-2S-12

RPM operating range 1,400 - 5,400

RPM cruise 2,400 - 3,000

valve float 6000

112* LSA

107* ICL

117* ECL

216*/224* @ 0.050" lift

0.520"/0.542" valve lift

Thats where mine makes a little bit more power than your cam, the extra lift makes use of the most flow from the AFR heads. Your 0.480" lift would still result in the AFR heads out flowing your OE castings.

This first one is your build with the 35-512-8 cam and AFR Renegade 165 cylinder heads

This second one is yours the diamond marked lines vs my build to show a comparison of the torque curve.

Remember that is with a 600cfm 4V carb. I dont know what the flow rate of the factory throttle body, I know there were two different sizes a 58mm and a 60mm and I know people argue between 800cfm and 1,000cfm. This is a comparison chart with sequential EFI with 1,000 cfm but it will be a big guess still and goes to show the output is only as accurate as your input information.

Thanks for all the good info. I don't have time for a proper reply tonight but I will try to digest all this and figure out which direction to go. The PO told me that when he rebuilt the engine he just honed the cylinders and put new rings on the original pistons (which are flat top with valve reliefs) and I assume that he did not have the deck machined but I don't know that for sure, so I believe that all dimensions are stock.

[myrl883]

Thanks for all the good info. I don't have time for a proper reply tonight but I will try to digest all this and figure out which direction to go. The PO told me that when he rebuilt the engine he just honed the cylinders and put new rings on the original pistons (which are flat top with valve reliefs) and I assume that he did not have the deck machined but I don't know that for sure, so I believe that all dimensions are stock.

My low budget 302 build is this. F1SE roller block - bored .020, flat top pistons with valve reliefs, GT-40 3 bar heads with comp cams springs, E303 cam, OE roller lifters, ProForm roller tipped rockers, Edelbrock Performer 289 intake, Holley 600 cfm carb, and a recurved DS-II distributor.

I shopped wrecking yards, swap meets, craigslist, friends, etc. All in, I'm under $1500. Hoping to be in the 300 hp range, anyone think I'll make it??

 

[Sparky]

Well, I ordered a cam today. The general consensus seems to be that the Comp 35-512-8 is the best cam for my speed density truck and when I called Comp they agreed. It's fairly mild but should give a good improvement over my stock cam. They say 1200-5200rpm is the cam's range.

The next step is to decide on heads. I've got it narrowed down to the AFR 165cc, Trick Flow 170cc, Brodix ST 5.0 R 171cc and the Edelbrock E-Street 170cc.The prices range from about $2000 for the AFRs to about $1200 for the E-streets with the other two in the middle. My questions are mostly concerning intake valve size and combustion chamber size. Some offer an intake valve of either 2.02" or 1.90". For low end torque should I be using the smaller valve? For combustion chamber, is smaller better? What is too small? The sizes of combustion chambers offered for the above heads range from 61cc to 55cc. I'm not sure how to figure the new compression ratio since I can't find any good info on the chamber size of my current E5TE heads. I believe the stock compression ratio for my truck is 9.0 to 1. Any help on the above questions would be appreciated. If you have any comments on the heads I would like to hear them. I am looking for the most bang for my buck, not necessarily the absolute best performance.

Be careful with the E-street heads, unless they changed when I looked at them years ago they are not for hydraulic roller cam engines. I think its the heads arent cut for heavier duty valve springs to keep the roller lifter under control.

If you are wanting low end torque for a 302 opt for the 1.90" valve, it also is more forgiving with OE style pistons as the 1.90" valves will fit the OE piston valve notches while the 2.02" valves will not and will require fly cutting the piston or going with a dished piston. The 1.90" valve will also be better for street use on a 302.

On the E5TE heads as far as chamber size and all that, the following is the site I use for OE Ford cylinder head specs.

https://www.carbdford.com/tech/flowdata.htm

They dont have specs for your specific heads but looking online it appears your E5TE heads are 62 - 65 cc chambers.

As far as figuring out compression you have to know what your deck clearance will be and go from there.

If you go a similar route as I did this is what you would be looking at

flat top hyper pistons with 8cc valve reliefs

4.030" bore

4.100" x 0.039" head gasket

0 deck

63cc heads

8.89:1 compression.

With AFR cylinder heads the 165 Renegade with 58cc heads you would be looking at 9.42:1 compression.

Now if you have like me 0.040" quench and not zero deck which is right in the middle of ideal quench of 0.038" - 0.042" with 63cc heads you are looking at 8.87:1 compression

With AFR cylinder heads you would be looking at 9.40:1 compression.

My 302 is bored 0.040" over so my bore is 4.040" with 4.100" x 0.039" head gasket and 0.001" deck clearance for 0.040" quench with Renegade 165 heads with 58cc chambers which gives me 9.44:1 which is close enough for my 9.50:1 goal which is what the 5.0 Explorer engines were rated at with GT40 heads was 9.5:1.

Thing you have to look at is what compression your cam wants and go for that cause a cam with more over lap will bleed compression off and youll need more static compression.

This is what DD2000 came up with if you run the AFR 165 heads with 9.40:1 compression with a 600cfm 4V carb, small tube headers with mufflers and the 35-512-8 roller cam.

Peak hp 388 @ 6,000

Peak trq 397 @ 4,500

With stock manifolds you would be looking at the following

Peak hp 324 @ 5,500

Peak trq 355 @ 3,500-4,000

To compare your cam to mine

35-512-8

RPM operating range 1,200 - 5,200

114* LSA

110* ICL

206*/212* @ 0.050" lift

0.480"/0.480" valve lift

HR-216-325-2S-12

RPM operating range 1,400 - 5,400

RPM cruise 2,400 - 3,000

valve float 6000

112* LSA

107* ICL

117* ECL

216*/224* @ 0.050" lift

0.520"/0.542" valve lift

Thats where mine makes a little bit more power than your cam, the extra lift makes use of the most flow from the AFR heads. Your 0.480" lift would still result in the AFR heads out flowing your OE castings.

This first one is your build with the 35-512-8 cam and AFR Renegade 165 cylinder heads

https://forum.garysgaragemahal.com/file/n117723/Comp_35-512-8_-_1.png

This second one is yours the diamond marked lines vs my build to show a comparison of the torque curve.

https://forum.garysgaragemahal.com/file/n117723/Crane_HR-216-325-2S-12_vs_Comp_35-512-8_%282%29.png

Remember that is with a 600cfm 4V carb. I dont know what the flow rate of the factory throttle body, I know there were two different sizes a 58mm and a 60mm and I know people argue between 800cfm and 1,000cfm. This is a comparison chart with sequential EFI with 1,000 cfm but it will be a big guess still and goes to show the output is only as accurate as your input information.

https://forum.garysgaragemahal.com/file/n117723/Crane_HR-216-325-2S-12_vs_Comp_35-512-8_2_%282%29.png

Regarding the E Street heads, their description definitely says "for flat tappet cams only" but the Comp Cams tech I talked to said they can handle my roller cam no problem. Kind of confusing. I think the springs they use are kind of wimpy and can only handle a mild roller cam like mine. Still, I'm not sure whether to trust them. If something goes bad down the road they will just fall back on the "flat tappet only" statement.

I checked my deck clearance today using the straight edge and feeler gauge method. I checked pistons #1 and #4. #1 was at .028" and #4 was about .030". I'm pretty confident I'm in the ballpark with these numbers. That seems pretty far in the hole to me. I guess I would have to have the block milled about .028" or so to reach an optimal quench. How important is quench? I also need to call Comp Cams again to see what they think about the CR for my cam. Based on these numbers I'm coming up with a CR of 8.15:1 (4.000 bore, .047 gasket, 8cc valve reliefs, .028 clearance, 63cc heads) for my all-stock truck. I've seen smaller numbers used for valve reliefs, more like 3cc's. I saw an old post on FTE where Rembrandt from this forum was discussing CR's and he was told that his slightly dished pistons with valve reliefs were somewhere around 3-5cc's. Maybe he can weigh in. At 3cc's my CR would be 8.6:1.

I would love to make 388 HP but I am expecting more like 300.

[Sparky]

My low budget 302 build is this. F1SE roller block - bored .020, flat top pistons with valve reliefs, GT-40 3 bar heads with comp cams springs, E303 cam, OE roller lifters, ProForm roller tipped rockers, Edelbrock Performer 289 intake, Holley 600 cfm carb, and a recurved DS-II distributor.

I shopped wrecking yards, swap meets, craigslist, friends, etc. All in, I'm under $1500. Hoping to be in the 300 hp range, anyone think I'll make it??

I'm a newb at this stuff but I think you could make 300HP with that combination. I'll let others weigh in on whether that is the right cam for a truck. In any event, $1500 is a great price for a nice build.

[Rusty_S85]

Well, I ordered a cam today. The general consensus seems to be that the Comp 35-512-8 is the best cam for my speed density truck and when I called Comp they agreed. It's fairly mild but should give a good improvement over my stock cam. They say 1200-5200rpm is the cam's range.

The next step is to decide on heads. I've got it narrowed down to the AFR 165cc, Trick Flow 170cc, Brodix ST 5.0 R 171cc and the Edelbrock E-Street 170cc.The prices range from about $2000 for the AFRs to about $1200 for the E-streets with the other two in the middle. My questions are mostly concerning intake valve size and combustion chamber size. Some offer an intake valve of either 2.02" or 1.90". For low end torque should I be using the smaller valve? For combustion chamber, is smaller better? What is too small? The sizes of combustion chambers offered for the above heads range from 61cc to 55cc. I'm not sure how to figure the new compression ratio since I can't find any good info on the chamber size of my current E5TE heads. I believe the stock compression ratio for my truck is 9.0 to 1. Any help on the above questions would be appreciated. If you have any comments on the heads I would like to hear them. I am looking for the most bang for my buck, not necessarily the absolute best performance.

Be careful with the E-street heads, unless they changed when I looked at them years ago they are not for hydraulic roller cam engines. I think its the heads arent cut for heavier duty valve springs to keep the roller lifter under control.

If you are wanting low end torque for a 302 opt for the 1.90" valve, it also is more forgiving with OE style pistons as the 1.90" valves will fit the OE piston valve notches while the 2.02" valves will not and will require fly cutting the piston or going with a dished piston. The 1.90" valve will also be better for street use on a 302.

On the E5TE heads as far as chamber size and all that, the following is the site I use for OE Ford cylinder head specs.

https://www.carbdford.com/tech/flowdata.htm

They dont have specs for your specific heads but looking online it appears your E5TE heads are 62 - 65 cc chambers.

As far as figuring out compression you have to know what your deck clearance will be and go from there.

If you go a similar route as I did this is what you would be looking at

flat top hyper pistons with 8cc valve reliefs

4.030" bore

4.100" x 0.039" head gasket

0 deck

63cc heads

8.89:1 compression.

With AFR cylinder heads the 165 Renegade with 58cc heads you would be looking at 9.42:1 compression.

Now if you have like me 0.040" quench and not zero deck which is right in the middle of ideal quench of 0.038" - 0.042" with 63cc heads you are looking at 8.87:1 compression

With AFR cylinder heads you would be looking at 9.40:1 compression.

My 302 is bored 0.040" over so my bore is 4.040" with 4.100" x 0.039" head gasket and 0.001" deck clearance for 0.040" quench with Renegade 165 heads with 58cc chambers which gives me 9.44:1 which is close enough for my 9.50:1 goal which is what the 5.0 Explorer engines were rated at with GT40 heads was 9.5:1.

Thing you have to look at is what compression your cam wants and go for that cause a cam with more over lap will bleed compression off and youll need more static compression.

This is what DD2000 came up with if you run the AFR 165 heads with 9.40:1 compression with a 600cfm 4V carb, small tube headers with mufflers and the 35-512-8 roller cam.

Peak hp 388 @ 6,000

Peak trq 397 @ 4,500

With stock manifolds you would be looking at the following

Peak hp 324 @ 5,500

Peak trq 355 @ 3,500-4,000

To compare your cam to mine

35-512-8

RPM operating range 1,200 - 5,200

114* LSA

110* ICL

206*/212* @ 0.050" lift

0.480"/0.480" valve lift

HR-216-325-2S-12

RPM operating range 1,400 - 5,400

RPM cruise 2,400 - 3,000

valve float 6000

112* LSA

107* ICL

117* ECL

216*/224* @ 0.050" lift

0.520"/0.542" valve lift

Thats where mine makes a little bit more power than your cam, the extra lift makes use of the most flow from the AFR heads. Your 0.480" lift would still result in the AFR heads out flowing your OE castings.

This first one is your build with the 35-512-8 cam and AFR Renegade 165 cylinder heads

https://forum.garysgaragemahal.com/file/n117723/Comp_35-512-8_-_1.png

This second one is yours the diamond marked lines vs my build to show a comparison of the torque curve.

https://forum.garysgaragemahal.com/file/n117723/Crane_HR-216-325-2S-12_vs_Comp_35-512-8_%282%29.png

Remember that is with a 600cfm 4V carb. I dont know what the flow rate of the factory throttle body, I know there were two different sizes a 58mm and a 60mm and I know people argue between 800cfm and 1,000cfm. This is a comparison chart with sequential EFI with 1,000 cfm but it will be a big guess still and goes to show the output is only as accurate as your input information.

https://forum.garysgaragemahal.com/file/n117723/Crane_HR-216-325-2S-12_vs_Comp_35-512-8_2_%282%29.png

Regarding the E Street heads, their description definitely says "for flat tappet cams only" but the Comp Cams tech I talked to said they can handle my roller cam no problem. Kind of confusing. I think the springs they use are kind of wimpy and can only handle a mild roller cam like mine. Still, I'm not sure whether to trust them. If something goes bad down the road they will just fall back on the "flat tappet only" statement.

I checked my deck clearance today using the straight edge and feeler gauge method. I checked pistons #1 and #4. #1 was at .028" and #4 was about .030". I'm pretty confident I'm in the ballpark with these numbers. That seems pretty far in the hole to me. I guess I would have to have the block milled about .028" or so to reach an optimal quench. How important is quench? I also need to call Comp Cams again to see what they think about the CR for my cam. Based on these numbers I'm coming up with a CR of 8.15:1 (4.000 bore, .047 gasket, 8cc valve reliefs, .028 clearance, 63cc heads) for my all-stock truck. I've seen smaller numbers used for valve reliefs, more like 3cc's. I saw an old post on FTE where Rembrandt from this forum was discussing CR's and he was told that his slightly dished pistons with valve reliefs were somewhere around 3-5cc's. Maybe he can weigh in. At 3cc's my CR would be 8.6:1.

I would love to make 388 HP but I am expecting more like 300.

Yep 0.028" - 0.030" is quite a bit with a 0.039" head gasket youll be right at 0.060" quench which is excessive. Case in point I found true tdc with a piston stop when I did my cam degreeing to verify installation and I measured using a dial caliper and I found mine on the center line of the piston (the piston can rock side to side slightly) was right at 0.0010" to 0.0015" so I just went with 0.001" which on a 0.039" thick headgasket comes out to 0.040" quench. Anything over 0.050" quench will have a high risk of causing detonation as ideal is 0.038" to 0.042" and I shot for right in the middle at 0.040"

On the valve reliefs it depends on what pistons you use, mine are 4 valve relief hyper pistons which are rated at 8cc for the valve reliefs. If you go with a forged piston with just 2 valve reliefs per piston you would have less cc and will bump up the compression. I just wanted hypers as they can be fitted tighter to the cylinder which helps the engine to run quieter due to how stable hypers are and their very minimal expansion when heating up.

Power wise my goal was 300hp. DD2000 states closer to 390hp but I realistically think with my shorty headers into a OE style 2 1/2" Y pipe with a straight back 2 1/2" single exhaust into a 2 1/2" Magnaflow XL3 chamber round muffler into a 2 1/2" tail pipe I think I would be more or less around 325hp to 350 hp at the flywheel. But my goal was always 300 hp that is over double what my smog 302 makes which is just over 100 hp. I know its not much over 100 hp cause my '78 351W is rated at 145 hp so the 302 would be in the neighborhood of 110 - 120 hp I figure.

That coupled with a custom built C6 transmission with a E40D planetary gear set, r type servo and piston with kevlar bands, RV shift kit a hughs XTM tow converter and a black stripe vacuum modulator matched up to a 3.25:1 detroit tru trac 9" carrier I should see a big boost to performance with my 31x10.50-15 tires over the worn out stock C6 trans I have with a stock smog 302.

[Sparky]

Well, I ordered a cam today. The general consensus seems to be that the Comp 35-512-8 is the best cam for my speed density truck and when I called Comp they agreed. It's fairly mild but should give a good improvement over my stock cam. They say 1200-5200rpm is the cam's range.

The next step is to decide on heads. I've got it narrowed down to the AFR 165cc, Trick Flow 170cc, Brodix ST 5.0 R 171cc and the Edelbrock E-Street 170cc.The prices range from about $2000 for the AFRs to about $1200 for the E-streets with the other two in the middle. My questions are mostly concerning intake valve size and combustion chamber size. Some offer an intake valve of either 2.02" or 1.90". For low end torque should I be using the smaller valve? For combustion chamber, is smaller better? What is too small? The sizes of combustion chambers offered for the above heads range from 61cc to 55cc. I'm not sure how to figure the new compression ratio since I can't find any good info on the chamber size of my current E5TE heads. I believe the stock compression ratio for my truck is 9.0 to 1. Any help on the above questions would be appreciated. If you have any comments on the heads I would like to hear them. I am looking for the most bang for my buck, not necessarily the absolute best performance.

Be careful with the E-street heads, unless they changed when I looked at them years ago they are not for hydraulic roller cam engines. I think its the heads arent cut for heavier duty valve springs to keep the roller lifter under control.

If you are wanting low end torque for a 302 opt for the 1.90" valve, it also is more forgiving with OE style pistons as the 1.90" valves will fit the OE piston valve notches while the 2.02" valves will not and will require fly cutting the piston or going with a dished piston. The 1.90" valve will also be better for street use on a 302.

On the E5TE heads as far as chamber size and all that, the following is the site I use for OE Ford cylinder head specs.

https://www.carbdford.com/tech/flowdata.htm

They dont have specs for your specific heads but looking online it appears your E5TE heads are 62 - 65 cc chambers.

As far as figuring out compression you have to know what your deck clearance will be and go from there.

If you go a similar route as I did this is what you would be looking at

flat top hyper pistons with 8cc valve reliefs

4.030" bore

4.100" x 0.039" head gasket

0 deck

63cc heads

8.89:1 compression.

With AFR cylinder heads the 165 Renegade with 58cc heads you would be looking at 9.42:1 compression.

Now if you have like me 0.040" quench and not zero deck which is right in the middle of ideal quench of 0.038" - 0.042" with 63cc heads you are looking at 8.87:1 compression

With AFR cylinder heads you would be looking at 9.40:1 compression.

My 302 is bored 0.040" over so my bore is 4.040" with 4.100" x 0.039" head gasket and 0.001" deck clearance for 0.040" quench with Renegade 165 heads with 58cc chambers which gives me 9.44:1 which is close enough for my 9.50:1 goal which is what the 5.0 Explorer engines were rated at with GT40 heads was 9.5:1.

Thing you have to look at is what compression your cam wants and go for that cause a cam with more over lap will bleed compression off and youll need more static compression.

This is what DD2000 came up with if you run the AFR 165 heads with 9.40:1 compression with a 600cfm 4V carb, small tube headers with mufflers and the 35-512-8 roller cam.

Peak hp 388 @ 6,000

Peak trq 397 @ 4,500

With stock manifolds you would be looking at the following

Peak hp 324 @ 5,500

Peak trq 355 @ 3,500-4,000

To compare your cam to mine

35-512-8

RPM operating range 1,200 - 5,200

114* LSA

110* ICL

206*/212* @ 0.050" lift

0.480"/0.480" valve lift

HR-216-325-2S-12

RPM operating range 1,400 - 5,400

RPM cruise 2,400 - 3,000

valve float 6000

112* LSA

107* ICL

117* ECL

216*/224* @ 0.050" lift

0.520"/0.542" valve lift

Thats where mine makes a little bit more power than your cam, the extra lift makes use of the most flow from the AFR heads. Your 0.480" lift would still result in the AFR heads out flowing your OE castings.

This first one is your build with the 35-512-8 cam and AFR Renegade 165 cylinder heads

https://forum.garysgaragemahal.com/file/n117723/Comp_35-512-8_-_1.png

This second one is yours the diamond marked lines vs my build to show a comparison of the torque curve.

https://forum.garysgaragemahal.com/file/n117723/Crane_HR-216-325-2S-12_vs_Comp_35-512-8_%282%29.png

Remember that is with a 600cfm 4V carb. I dont know what the flow rate of the factory throttle body, I know there were two different sizes a 58mm and a 60mm and I know people argue between 800cfm and 1,000cfm. This is a comparison chart with sequential EFI with 1,000 cfm but it will be a big guess still and goes to show the output is only as accurate as your input information.

https://forum.garysgaragemahal.com/file/n117723/Crane_HR-216-325-2S-12_vs_Comp_35-512-8_2_%282%29.png

Rusty, just wondering how much you had to take off your deck to get to .001" deck clearance. A machine shop I talked to said they wouldn't recommend taking more than .010" off or it would affect the fit of my intake. My pistons are currently about .030" down before any machining. Did you have your intake machined also? I would like to get closer to your numbers as far as quench and CR go. What gas are you planning to use?

[Rusty_S85]

Well, I ordered a cam today. The general consensus seems to be that the Comp 35-512-8 is the best cam for my speed density truck and when I called Comp they agreed. It's fairly mild but should give a good improvement over my stock cam. They say 1200-5200rpm is the cam's range.

The next step is to decide on heads. I've got it narrowed down to the AFR 165cc, Trick Flow 170cc, Brodix ST 5.0 R 171cc and the Edelbrock E-Street 170cc.The prices range from about $2000 for the AFRs to about $1200 for the E-streets with the other two in the middle. My questions are mostly concerning intake valve size and combustion chamber size. Some offer an intake valve of either 2.02" or 1.90". For low end torque should I be using the smaller valve? For combustion chamber, is smaller better? What is too small? The sizes of combustion chambers offered for the above heads range from 61cc to 55cc. I'm not sure how to figure the new compression ratio since I can't find any good info on the chamber size of my current E5TE heads. I believe the stock compression ratio for my truck is 9.0 to 1. Any help on the above questions would be appreciated. If you have any comments on the heads I would like to hear them. I am looking for the most bang for my buck, not necessarily the absolute best performance.

Be careful with the E-street heads, unless they changed when I looked at them years ago they are not for hydraulic roller cam engines. I think its the heads arent cut for heavier duty valve springs to keep the roller lifter under control.

If you are wanting low end torque for a 302 opt for the 1.90" valve, it also is more forgiving with OE style pistons as the 1.90" valves will fit the OE piston valve notches while the 2.02" valves will not and will require fly cutting the piston or going with a dished piston. The 1.90" valve will also be better for street use on a 302.

On the E5TE heads as far as chamber size and all that, the following is the site I use for OE Ford cylinder head specs.

https://www.carbdford.com/tech/flowdata.htm

They dont have specs for your specific heads but looking online it appears your E5TE heads are 62 - 65 cc chambers.

As far as figuring out compression you have to know what your deck clearance will be and go from there.

If you go a similar route as I did this is what you would be looking at

flat top hyper pistons with 8cc valve reliefs

4.030" bore

4.100" x 0.039" head gasket

0 deck

63cc heads

8.89:1 compression.

With AFR cylinder heads the 165 Renegade with 58cc heads you would be looking at 9.42:1 compression.

Now if you have like me 0.040" quench and not zero deck which is right in the middle of ideal quench of 0.038" - 0.042" with 63cc heads you are looking at 8.87:1 compression

With AFR cylinder heads you would be looking at 9.40:1 compression.

My 302 is bored 0.040" over so my bore is 4.040" with 4.100" x 0.039" head gasket and 0.001" deck clearance for 0.040" quench with Renegade 165 heads with 58cc chambers which gives me 9.44:1 which is close enough for my 9.50:1 goal which is what the 5.0 Explorer engines were rated at with GT40 heads was 9.5:1.

Thing you have to look at is what compression your cam wants and go for that cause a cam with more over lap will bleed compression off and youll need more static compression.

This is what DD2000 came up with if you run the AFR 165 heads with 9.40:1 compression with a 600cfm 4V carb, small tube headers with mufflers and the 35-512-8 roller cam.

Peak hp 388 @ 6,000

Peak trq 397 @ 4,500

With stock manifolds you would be looking at the following

Peak hp 324 @ 5,500

Peak trq 355 @ 3,500-4,000

To compare your cam to mine

35-512-8

RPM operating range 1,200 - 5,200

114* LSA

110* ICL

206*/212* @ 0.050" lift

0.480"/0.480" valve lift

HR-216-325-2S-12

RPM operating range 1,400 - 5,400

RPM cruise 2,400 - 3,000

valve float 6000

112* LSA

107* ICL

117* ECL

216*/224* @ 0.050" lift

0.520"/0.542" valve lift

Thats where mine makes a little bit more power than your cam, the extra lift makes use of the most flow from the AFR heads. Your 0.480" lift would still result in the AFR heads out flowing your OE castings.

This first one is your build with the 35-512-8 cam and AFR Renegade 165 cylinder heads

https://forum.garysgaragemahal.com/file/n117723/Comp_35-512-8_-_1.png

This second one is yours the diamond marked lines vs my build to show a comparison of the torque curve.

https://forum.garysgaragemahal.com/file/n117723/Crane_HR-216-325-2S-12_vs_Comp_35-512-8_%282%29.png

Remember that is with a 600cfm 4V carb. I dont know what the flow rate of the factory throttle body, I know there were two different sizes a 58mm and a 60mm and I know people argue between 800cfm and 1,000cfm. This is a comparison chart with sequential EFI with 1,000 cfm but it will be a big guess still and goes to show the output is only as accurate as your input information.

https://forum.garysgaragemahal.com/file/n117723/Crane_HR-216-325-2S-12_vs_Comp_35-512-8_2_%282%29.png

Rusty, just wondering how much you had to take off your deck to get to .001" deck clearance. A machine shop I talked to said they wouldn't recommend taking more than .010" off or it would affect the fit of my intake. My pistons are currently about .030" down before any machining. Did you have your intake machined also? I would like to get closer to your numbers as far as quench and CR go. What gas are you planning to use?

Its hard to say. You have to know what pistons you are using as well as pistons can have difference compression heigths. Mine the block was prepped and assembled for me by Kreb Engineering and was shipped to me I couldnt find a local shop I trust let alone one that could get me a roller 302 block built in a short period of time. As of right now the three local engine shops to me are telling people its right now a 2 1/2 year turn around due to the volume of rebuilds that they are getting.