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Harrison Kotrolos

Building the Heart of the Sleeping Beauty (Performance)

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Welcome Everyone,

 

So I will give a quick run down of what this is, I've read heaps of the forums on here, especially those based around performance gains on the good ol' Crossflow.

 

This forum, will be a kinda build topic, showing the build of the engine, specs, asking for help, giving you people information on what's happening. But most importantly, I wanted to create a forum, where I tell you guys what I'm doing, and what's going on, and you can give me specific answers and help to my issues and wants.

 

Yes I know, there are heaps of build threads and forums and posts about gaining performance, but I want a post and forum specifically targeted at what I'm doing, so I can gain personalised help, as well as give results and insight to what I did for future project goers.

 

Okay, so this is whats up, I started this build 5 years ago, and you can check it out on my other forum "Sleeping Beauty", I'm not going into detail with the build here, only engine related components.

 

Alrighttyyy into the nitty gritty, quick rundown, engine rebuilt, everything nearly new, entire engine is balanced internally and externally including flex plate and pulleys.

 

When motor was new it had a dry cranking compression of 210PSI.

 

This is what it is running:

 

- Stock OEM Cam -

.050 Duration Int = 190

.050 Duration Exh =  190

Cam Lift Int = 234

Cam Lift Exh = 234

Valve Lift Int = 407

Valve Lift Ext = 407

 

- 350 Holley Performance Carby

Jet Size = 52

 

- Redline Performance Manifold

 

- PaceMaker Headers

 

- 2 1/4 Inch Straight Pipe with Straight Through Muffler

 

- Unknown Compression ratio, only know 210PSI dry cranking pressure

 

- Converted to Unleaded Valves

 

- Running 98 Octance Fuel

 

- Mechanical Fuel Pump

 

- Thermo Fans

 

- MSD 6AL-2 Programmable Box with XF EFI dizzy and 8.5MM plug wires

 

Okay, so that's a run down on the motor, I ran it in over 1000kms, and god was it a bitch, this thing had like 65 jets in it from the factory Holley tune, and it had original points ignition, so it just died, bogged, sucked absolute monkey b**l.

 

Okay, I'll leave you guys with this last information, and will do an update in a day or so.

 

I got the car dyno tuned after it was run in, had massive issues, the throttle wasn't even opening to full throttle only half, and when we did our first run, without any tune, we got a powerful 40RWKW, WOOOOO hahahaha

 

So we fixed the throttle position, we pulled the jets straight down to 58, and then advance some timing, slowly slowly the power came up.

 

Eventually, we ended the day on 53 jet size, timing, and without air filter 110RWKW and about 380NM of torque, and with the air filter on I lost 10RWKW, WOW, so turns out the air filter is super restrictive.

 

Anyway, I'll leave you guys without for now, pretty late when I was writing this, will post some picks up with the work I just spoke about, and will then tell you what I've done next, where I am going, and ask a few questions I need help with.

 

Thanks,

harry

 

 

 

 

 

 

 

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Okay, so here are just some photos of the engine bay, car on the dyno and the results, as well as the evolution of the engine bay.

 

So this is the engine bay after the car was first finished, still had points ignition, not tuned, still running it in

 

20150720_190319_zpsuszvyrts.jpg

 

This is the car on the dyno, and some of the results.

 

 

 

As you can see, this is how I was driving the car, the throttle not opening all the way, super rich, bogging, just absolute rubbish just as the graph shows.

 

20151015_142404_zpsfpqpy1rf.jpg

 

20151015_141831_zpsp8f7zsoq.jpg

 

In this one here, this is just fixing the throttle, still no adjustments, so its amazing how much of a difference that made

 

20151015_150254_zpsqwa4yfh9.jpg

 

And this is the engine bay now, I'll explain what I've done:

 

- Heat Wrapped exhaust

 

- Oil Cooler and Relocation Kit

 

- MSD 6AL-2 Programmable Box

 

- SS Blaster Coil

 

- 8.5MM Super Conductor Wires

 

- XF EFI Dizzy

 

Car hasn't been retuned, but just off the seat dyno, it has picked up at least 10KW, this is due to being able to dial in 30degrees of advance, and the ability to make my own curve through the MSD, where as the points ignition hadn't been regraphed and was just dead.

 

My next post will be what I'm doing with the car, and what will be happening next, as well as asking a whole lot of questions.

 

Thanks,

Harry

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Shit it's finished............!!!!  I thought you just started building this. Very, not bad.  ;)

 

Wooooops, shouldn't have uploaded the photo, gave away the big surprise hahahaha

 

No no, I have finished the car, I started this build 5 years ago, and basically starting from the beginning and creating a written account of my journey to share with everyone.

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Okayyyy,

 

hey everyone,

 

So this is the go. As you can see below, there is my dyno sheet from like a year ago, this is after the motor was run in, and done an oil change and spark change. After fixing the issue of not having WOT, we started tuning the car, turns out it was super rich, and we had to go down 10 jets, as well as change power valve twice. As you can see in the photo, it made a solid 102RWKW, with 325NM of torque, now it may not seem impressive, but I will soon tell you why that is freaking amazing.

 

WP_20160320_002_zpsdij6u7wv.jpg

 

 

So factory these motors made like 82KW at the flywheel, so already we are seeing a gain in like 30KW, and whats more impressive, this is all on a stock cam. I KNOW, i'm crazy, why would I make a nice tasting soup, with shitty ingredients, well the reason being is I rebuilt the motor and it sat there for 2-3 years in damp and dusty and shitty conditions. Soooo, i built the motor to specs, and got it running, once I broke it in, and got all the gremlines out, I decided then that it was good to start upgrading on it, I just needed to confirm it had a good base to work on.

 

So these are the specs at the time of the dyno sheet that made 102RWKW:

 

Stock CAM, 190 INT at .050 and 190EXT at  .050

2BBL Redline Manifold

350 Holley

PaceMaker Extractors

2 1/4 Inch Exhuast

Mechanical Fuel Pump

High 9's compression

98 Octane

Balnced motor internally and externally

Thermo Fans

Original Un-Graphed Points Ignition

2.92 Gearing

 

So as you can see, probably the worse setup of all time, not only did I have points igntion, but it wasn't even graphed for this carby or setup, it was graphed from whatever they had from factory for the downdraught carby hahahahhaha

 

So as you could imagine the car ran like a dog, even when tuned, it still bogged and just didn't feel  together, I felt like a liability on the road.

 

So now I am going to tell you about my next step in the process, I want you guys to throw my input, pointers, tips and discussion, let me make clear, I know its not cheap, its a crossflow, and to make reliable HP you can't use the word cheap, you got to spend time and money to make it, and I understand that, so fire ideas at me, I am hung on the idea of making a pissed off crossflow, and I have read forums of you guys doing it, so teach me your ways hahahahah

 

So I am aiming for 150RWKW, as a minimum, like if I get more, thats aweosme, but I am being realistic, with the parts I have bought. Lets start of, witht he old setup that is on the dyno sheet, without the air filter I made 110-112RWKW, so straight up we already know the first modification, change the air filter.

 

Next up, if you guys have been following me other forums, you will know that I have ditched the old shitty points, and gone full electric and programmable.

 

CANNOT STRESS THIS, ANYONE DOING A CROSSFLOW, this should be like your first upgrade, like the car starts straight away, warms up quickly, its responsive like crazy, pulls so fucking hard, and most of all is reliable and fuel efficient.

 

Like this is an amazing setup, it gives you massive headroom for future upgrades, makes the car drive and feel like a brand new car but with a carby, and most of all, you save money on not having to re-graph your dizzy all the time, because the system is so adaptable.

 

So i will tell you what it is, and you can check out my forum on the great tips from fellow falcon lovers and how I did it, and results.

 

I bought a MSD 6AL-2 programmable box, this is an amazing kit, you basically advance your timing as far as you want, lock it down, and retard it all the way and make your own graph, I KNOW MAKE YOUR OWN GRAPH, how amazing is that.

 

Next I coupled that with an SS Blaster Coil, and 8.5MM Super COnductor Leads, I went with these leads, because I had upgrade the voltage output and spark, plus they come in a universal kit, and you can cut and make them to suit your engine and setup, plusss the kit is for V8's so you get two spare leads hahahahah

 

Finally, what runs this setup is a EFI TFI dizzy from what I believe is a XF falcon.

 

​Okay so whats next, well CAM upgrade. Now I went with Crow Cams, because I have used them a lot with previous engine builds and racing, so I have had good history with them. Of course there are many other cam providers out there, so it is up to personal preference. The cam I went with, is a huge step up from stock, but is not the maximum cam I could of gone with.

​Now stock this motors cam is 190, and 190, now that's pathetic, with the cam I got, its 204 and 214, which is a huge upgrade, and will make a world of difference. Now I could of gone with 214 and 214 or a 214 and 224, which would of been great with the 350 holley, and made even more power, but I wasn't really wanting to install roller rockers, because of the surpassing of .500 lift, and the need for rollers, to make it reliable. This is because I have future plans for this motor, to make it a machine, so for now, it was more of a cam upgrade as to not waste the potential of the holley and other pieces, as well as making more power and fun.

​Okay, so you know the cam specs, which are 204 INT and 214 EXH, I have Double Valve Springs, Retainers, Rods, and Lifters to suit the package, so the whole package will be reliable and work great, especially since I used the original rods, hahahaha

​Okayyyy, so lets see what we got. I have a perfectly balanced bottom end, internally and externally, like from pistons, to rods, to gudgeon pins, crank, flywheel, balancer, etc hahahahha So I put some money into the bottom end hahahaha

​Lets pair that with, new top end gear, and double springs to increase the spring compression capabilities, so at the current moment the car revs to 5500rpm, with a stock cam and springs, pretty happily, I am reckoning with the new setup, easy 6500rpm, which lets be honest, is awesome, but it will probs make power to about 5500rpm, then drop. As you can see in the old dyno, it drops off after 4250rpm, but massive torque early on, which is what these motors are good for :)

​So far looking at a revvy motor, which is good, because that means I'll have a very open motor, that will be free and happy to spin around constantly hahahah on top of that, loads of torque, hoping for power to come on about 2000rpm, till 5000rpm, nice rev range, good for passing and the occasional burnout hahahahha

​Okay whats next, of course I want to do some head work, I'm pulling the head off, it has harden valves, with harden seats for unleaded 98 octane, so I want to port it out a bit, because well I have better flowing cam, the 350 holley, and nice flowing extractors and exhaust. So I want your guys help and tips, simply put, I cannot afford a professional job at the moment, so I just want to do a little myself at home, I'm not wanting a massive job and gains, just a little, cleaning up the cast and the chambers, but mainly the actual runners. So if you guys can give me some pointers, its an early Iron head for XC falcon, any particular parts to pay attention to??? Some pointers???

 

I will also upload pics of the head bare, and you guys can like download them, and draw circles on places I should grind down and flow a bit better :)

Like I said, cannot afford massive professional job, so just simple, at home, cleaning up and some grinding, I know it can be done, seen forums on here, so fire away some pointers :)

​Okay, so this is what we got, perfect ignition, advance to 38, and a curve that will be readjusted when the new cam is in.

​I will be getting a new open element air filter, to gain those lost KW's back

​I then have new cam and suited gear

​As well as balanced engine

​Now, I am making a new custom fuel lines, from the tank, with a electric fuel pump, and completely removing the mechanical fuel pump and blocking it off.

I have thermos fans installed, as well as an external oil cooler, so cooling is all good.

The holley will be retuned, and I have also put on a carby space, just to move the curve up a little, and its also a heat soaker, because the engine runs pretty warm

Finally, is the exhaust, at the moment I have a 2 1/4 inch exhaust, straight through, with straight through muffler. This is pretty good with the current setup, but as you can see, the new cam addssss wayyyyy more exhaust duration, meaning increase in exhaust gasses which are exiting, of course the 2 1/4 inch exhaust is just going to rob power, so I am thinking 2 1/2 inch, or possible 3 inch, with a resonator just after extractors, and a flowmaster super 40 muffler.

Let me know what size exhaust think I will benefit max horsepower, trying to squeeze every pony, and I am going to get custom tubes and weld it up at home as much as possible :)

So I think that is everything, I'll keep you guys updated, and I cannot wait for your input on this journey especially with port flowing and exhaust.

Thankyou All :)

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Yep MSD 6al2 programmable is a good piece of kit. Been saying it for years.

 

My advice. Ditch the iron head and go alloy. Lighter better. But I understand you have the manifold to suit so this will add more dollars.

 

You mention the seats are hardened but not what the seat cut is. You want advice on porting but I can tell you that the greatest air speed gains are made at the seat. Get a proper multi angle seat cut and valves back cut and face cut to suit and you will make more gains than any well intentioned amateur porter can achieve.

 

Proper porting takes time, patience, a steady had and most of all experience. Get it wrong and you will stuff things. Every runner, throat, cross sectional area needs to be the same or you will have just wasted all that money on a balanced engine cause your intakes won't be balanced.

 

Get a head and start practicing if your are truly interested in porting. Get some good measuring tools to ensure that you are taking the same amount of meat out of each throat, runner etc. Many will tell you that porting is easy, but that's not true. Picking up a die grinder and having a go is easy. Getting it 100% right is not and takes time. You will get there but practice, practice practice.

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This gives me hope!! Haha.

 

Ive just finished a similar build.

Motor is all rebuilt. Fully balanced bottom end like yours.

Im alloy head, ported with bigger in n ex valves. Running the crow cam 214 214 cam with valve train kit. Electronic dizzy graphed for the cam, comp (9.8:1) and 98 fuel.

 

BUT, im still running single barrel and standard inlet n exhaust manifolds. Someone has put a 2 inch exhaust on before me and got rid of the front muffler.

 

Pulls hard from 2-3500, but just makes noise afterwards.

 

I know i know, im choking it. Sucking n blowing through straws.

 

Im changing to 350 holley, redline torker manifold soon.

Also have 6-3-1 extractors and will put 2.5" mandrel bent exhaust with one muffler.

 

I will dyno the car before n after for the laughs.

 

 

youve done well!

 

Sent from my SM-G900I using Tapatalk

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Yep MSD 6al2 programmable is a good piece of kit. Been saying it for years.

 

My advice. Ditch the iron head and go alloy. Lighter better. But I understand you have the manifold to suit so this will add more dollars.

 

You mention the seats are hardened but not what the seat cut is. You want advice on porting but I can tell you that the greatest air speed gains are made at the seat. Get a proper multi angle seat cut and valves back cut and face cut to suit and you will make more gains than any well intentioned amateur porter can achieve.

 

Proper porting takes time, patience, a steady had and most of all experience. Get it wrong and you will stuff things. Every runner, throat, cross sectional area needs to be the same or you will have just wasted all that money on a balanced engine cause your intakes won't be balanced.

 

Get a head and start practicing if your are truly interested in porting. Get some good measuring tools to ensure that you are taking the same amount of meat out of each throat, runner etc. Many will tell you that porting is easy, but that's not true. Picking up a die grinder and having a go is easy. Getting it 100% right is not and takes time. You will get there but practice, practice practice.

 

Amen to that, the MSD is an amazing piece of kit and just rocks the world with the crossflows. The ability to tune the graph to any modifications you do to the motor, or even different driving conditions is just fantastic.

 

Any idea the power gains of installing the system, it has to be an easy 10kw????

 

Here is the link to my forum on the system

http://www.ozfalcon.com.au/index.php?/topic/5876-falcon-xc-msd-ignition-help/page-2

 

Below are some photos of how I've installed and set it up:

 

(At the current moment I'm having issues with photobucket, so will upload when its working)

 

Yeah I have been told that a lot, trust me I'm considering it for future upgrades to this motor, especially with certain plans I have for it, but the current moment, I just kinda wanna use the equipment I have and the money spent on it. So going to stick with the iron head for now.

 

Thankyou for the pointer about the valve seats, to be honest don't have any documentation in regards to the seat cut, any particular way of telling?? Could I take a photo and let you look at it???

 

I understand what you mean in regard to having it even and flowing right, and makes perfect sense, guess I will just kinda clean up the burred edges and the shitty casting, because there is a fair amount of it in the head and the Redline intake, and I will just be careful not to take too much meat out of the metal in order to not change the shape of the runners and what not.

 

I will eventually be practicing, I'm guessing there has to be a tool or device in order to test flowing and what not???

 

This gives me hope!! Haha.

 

Ive just finished a similar build.

Motor is all rebuilt. Fully balanced bottom end like yours.

Im alloy head, ported with bigger in n ex valves. Running the crow cam 214 214 cam with valve train kit. Electronic dizzy graphed for the cam, comp (9.8:1) and 98 fuel.

 

BUT, im still running single barrel and standard inlet n exhaust manifolds. Someone has put a 2 inch exhaust on before me and got rid of the front muffler.

 

Pulls hard from 2-3500, but just makes noise afterwards.

 

I know i know, im choking it. Sucking n blowing through straws.

 

Im changing to 350 holley, redline torker manifold soon.

Also have 6-3-1 extractors and will put 2.5" mandrel bent exhaust with one muffler.

 

I will dyno the car before n after for the laughs.

 

 

youve done well!

 

Sent from my SM-G900I using Tapatalk

 

Haha Glad I could give you hope, as I was building this car, a lot of people shot down any of my questions about the crossflow, saying if I wanted a fast car I should be smart and just put a V8 in it. But each to there own, I love the crossie, its just awesome and different, anyone can buy a built V8 600+hp package and put it in, but not many people can get an awesome crossie that's reliable going.

 

Loving the package, you should get really nice numbers with that setup, especially with the alloy head, will run cooler and nicer, especially with bigger valves.

 

How does the cam feel?? Does the car feel peppy?? I'm about to install mine in about 3-4 weeks time, and I cannot wait just to feel it, like ARGHHH hahahahha

 

And YEAHHH, don't worry, I was choking my holley and exhaust with such a small cam on my car, you got to kinda slowly put stuff together, bit by bit. The key is to match it all up, if all your pieces don't sink up, then it just won't feel right.

 

You will enjoy the 350, its a nice carby, will suit the cam perfectly, and you will notice a HUGE difference, I'm running mine currently a little rich, and when you down shift to slow down, the thing just Burbles, Crackles and Pops, ITS AMAZING hahaha

 

With the 350 though, because its not a progressive carby, it love WOT, so to kinda make it friendly to part throttle and cuirsing, you got to get the timing right. I strongly recommend the MSD setup, especially programmable, it is deer, but its great system.

 

With the exhaust, I would probably recommend a 3" system minimum, I had a 2 1/4, it made lots of low down torque, as you can see in the dyno graph, because there was massive back pressure, but with a cam that has 214 EXT, you want the 3" nice and flowing, and with a nice muffler in the standard spot.

 

Yeah dyno and having figures is always fun, good to know what works and what doesn't. I would really love to dyno the car now, with the electronic ignition, just to know how much more power I gained from ditching the points ignition. Because before it didn't even make it to 15 degrees advance, now its running max 36 degrees, and with a spark the looks like a welding arch.

 

Take a look at my forum about the system, and the helpful tips as well:

http://www.ozfalcon.com.au/index.php?/topic/5876-falcon-xc-msd-ignition-help/page-1

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The worst I have seen one make over locked timing is 15@ the tyres. Funnily enough I took that same car/engine and made another 15 with more time and care on the graph and the tune. It's about getting the right timing and fuel at each chosen rpm point. The more time you have on the dyno, the crisper you make it.

When you look at what they can do, especially with a map sensor input, it's not too far removed from what a decent ecu can achieve. Just not as refined and with the self tuning most ecu's have. But with time and patience you can map/Throttle tune a carb car, just like you might with an ecu. Yes you will have to do jet, air bleed and power valve changes instead of just inputting data into a table but you can get similar tune quality. Problem is it just won't have the consistency of an efi system as things change. But still it's not bad and a definite improvement on recurving a distributor.

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The worst I have seen one make over locked timing is 15@ the tyres. Funnily enough I took that same car/engine and made another 15 with more time and care on the graph and the tune. It's about getting the right timing and fuel at each chosen rpm point. The more time you have on the dyno, the crisper you make it.

When you look at what they can do, especially with a map sensor input, it's not too far removed from what a decent ecu can achieve. Just not as refined and with the self tuning most ecu's have. But with time and patience you can map/Throttle tune a carb car, just like you might with an ecu. Yes you will have to do jet, air bleed and power valve changes instead of just inputting data into a table but you can get similar tune quality. Problem is it just won't have the consistency of an efi system as things change. But still it's not bad and a definite improvement on recurving a distributor.

 

Wow really??? That's crazy, 15hp or kws??? Yeah I did a nice basic graph, I didn't have a dyno and only had my bum, so I basically tuned it to pull and rev perfectly at each rev range under different loads, it actually ended up with a pretty aggressive graph due to the small cam, I needed to burn the huge amount of fuel being pushed in with the lack of air.

 

Okay so MAP sensor is a must I have been told, will ad one tot he system, with the manifold you have the little tree on it that creates vacuum for the brake booster, do you think I could use on of those ports?? Or should I drill holes and tap a sensor pung closer to the entrance tot he carby????

 

And yeah way better then points, and better then recurving, especially since recurving its still pretty locked, where as with this graph, you can create a graph that is really customized at each point, and then you can create a "hot day" graph and a "cold day" graph, and load one graph to the turbo or retard setup, and when you flick a switch it will load that graph

 

Okay so I have finally started taking apart the engine ready for cam swap and train swap. For now I have simply taken the head off.

 

I started by taking the battery out, and disconnecting all the hoses and what not, after removing the carby I came to a sad and unfortunate resolution that I had blown part of the gasket on the carby to the manifold, which really sucked. Probably my fault for not checking the torque on the bolts after breaking the motor in.

 

I then removed the manifold and then started with the main engine parts. Unfortunately, I had issues removing some bolts that hole the extractors, and in want of no stripping or breaking them, I decided to leave it bolted in. It also turned out it makes a great handle with lifting the head off.

 

Okay, so taking off the rocker cover, we can see the stock valve train, pretty basic, nothing fancy, there are some progress shots showing the progress, nothing really special to report at the moment.

 

20160418_155920_zpslx2fyn8z.jpg

 

20160418_155924_zpsnvudtrwb.jpg

 

20160418_155939_zpsepcxteyl.jpg

 

There is a method to removing the head. First you got to take the rocker arms off, and to do this, you need to get the first piston to TDC on the compression stroke, and then take off INT1 EXT1, EXT2 and so on, cannot really remember the whole list, basically you are taking all the rockers that have no compression on the springs

 

You then spin the engine to TDC 6 piston for compression stroke, and take of the remaining rocker arms.

 

MAKE SURE YOU MARK EACH ROCKER ARM WHERE IT WENT IF YOU ARE KEEPING THEM

 

Engines are very temperamental machines, you are basically controlling mini explosions in a chamber, so the parts of the motor kinda wear in a different way to there opposing or similar parts, so the engine may not like swapping of rocker arms, so make sure they go back where they came from, you'll save yourself hassles and a problems.

 

Next point, pull out the pushrods, and TECH TIP, get a piece of cardboard and poke 12 holes in it and mark them 1-12, and put each pushrod in the corresponding hole. Again this relates to the idea of each engine part wearing in similar to the last.

 

Next you need to crack all the bolts holding the block down, there is a pattern to this, and it starts from the outside in, because you torque the head down from the inside out. Once you crack them all, then take them off and well crack the gasket and you are there, the head can come off.

 

Okay, so these next photos show the rocker arms, as I took a closer look, I realised these arms all have different stampings on them. Can someone please explain to me the stamping on these arms, and why there are different?? Are they even stock???

 

20160418_155953_zpsxylcwh1v.jpg

 

20160418_155957_zpsbkpdxyjc.jpg

 

20160418_160000_zpsxmmcrwic.jpg

 

20160418_160003_zps7yat2kf9.jpg

 

20160418_160016_zpsuw5dj9bl.jpg

 

Finally, here are the shots of the head off and pistons spinning and images of the pistons, that liquid was oil I squirted into the chamber when doing a compression test, its good to know the piston seals survived the break in, and seal the pistons really well and that the oil is still there in the chambers and hasn't leaked down.

 

20160418_163020_zpszdps8ubq.jpg

 

20160418_163025_zpspt2wargp.jpg

 

20160418_163028_zpsz06cqcni.jpg

 

20160418_163050_zps7xrnylf1.jpg

 

20160418_163052_zpsdf2z9uwr.jpg

 

20160418_163455_zpsyeaissjc.jpg

 

20160418_165845_zpshpzefwno.jpg

 

Looking from the pistons, anyone want to give input to the condition of the motor, and information on the pistons in there??? And way I can work out the compression now that the engine is open???

 

Thanks everyone for there input, look forward to hearing your photos on the breaking down the motor, and anything you spot.

 

Will keep you updated with progress

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To get a true compression ratio, is quite involved. You need a lot of information, such as the swept volume of the cylinder, bore width, the cc of the combustion chamber in the head, thickness of head gasket....etc, etc. Do a bit of surfing on YooToob, it's can be done at home.

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I use an online calculator. Google compression ratio calculator and heaps come up. I use the RSR one. But there are plenty to choose from. You will need to know several figures and if you use the RSR calculator it actually has tech tips that explain how to get the info required for that box. Very handy for those just starting out.

 

You will need to measure the cc of your combustion chamber as well as piston top cc's. A normal old syringe is handy for this or if you are close to a Bunnings, go the the mower section where they have fuel cans and the like and you will find a big syringe used for 2 stroke oil mixing etc. they are a good size, especially for the head chambers which are rather large. From 40-59odd cc, depending on head and how much is shaved off.

 

A set of vernier calipers is helpful to work out deck height but it can also be done with a set of feeler gauges with some accuracy. I'm pretty sure I did a spell on it in the Mad Scientist Crossflow thread.

 

Oh and that 15 gain was HP. I don't work in the new fanged kills wasps thing.

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I must say ive never kept a valve train in order just blow it apart with a rattle gun put it all in a box

are you staying cast head? you want one? I have one out the back new guides fitted seats cut for 1.9s and 1.6 valves and its machined for screw in studs I robbed the valve train out of it as it has single piece single groove valves I just chucked it in the back of a wreck you can have it if you want it


 

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Hey allll,

 

Sorry for the lack of updates or responses, had business work, uni exams and went to Japan for a couple of weeks.

 

ANYWAYYY, so much has happened I will for sure update you all on everything that happened and is happening. But be assured the car is safe and better than ever.

 

I will upload pics and update you all in the coming days.

 

 

To get a true compression ratio, is quite involved. You need a lot of information, such as the swept volume of the cylinder, bore width, the cc of the combustion chamber in the head, thickness of head gasket....etc, etc. Do a bit of surfing on YooToob, it's can be done at home.

Hey bear351c,

 

Really sorry for such poor response, I appreciate the help and advice and took it on, found out the compression is around low 10's high 9's, so not too bad, nothing crazy, just a street and occasional track motor.

 

But like I said, thankyou for the advice, helped a lot, and couple of youtube videos and online calculators later I got some results.

 

I use an online calculator. Google compression ratio calculator and heaps come up. I use the RSR one. But there are plenty to choose from. You will need to know several figures and if you use the RSR calculator it actually has tech tips that explain how to get the info required for that box. Very handy for those just starting out.

You will need to measure the cc of your combustion chamber as well as piston top cc's. A normal old syringe is handy for this or if you are close to a Bunnings, go the the mower section where they have fuel cans and the like and you will find a big syringe used for 2 stroke oil mixing etc. they are a good size, especially for the head chambers which are rather large. From 40-59odd cc, depending on head and how much is shaved off.

A set of vernier calipers is helpful to work out deck height but it can also be done with a set of feeler gauges with some accuracy. I'm pretty sure I did a spell on it in the Mad Scientist Crossflow thread.

Oh and that 15 gain was HP. I don't work in the new fanged kills wasps thing.

Hey there ando76,

 

Same goes to you, really sorry about poor response, but I did take your advice as well, found a couple of online calculators, hardest part was trying to figure out gasket size and all those little annoying measurements.

 

I understand what you mean about that gain with the MSD Programmable box and TFI dizzy ignition, once you put some advance and get a graph, does a world of good to the car.

 

Was running stock motor, with few bolt on upgrades and a balance, and even with advance and a proper ignition and big spark, I was closely keeping up with your everyday p-platers and family cars.

 

But now that the engine has all changed I need to start from the beginning.

 

I have a few questions. And anyone is more then welcome to respond.

 

What would your cranking timing be??? I want to get her to a number where she will fire straight away with a single pump, and fire really well now in winter when its cold. Would I want more advance in the cold or less???

 

Second questions. What would your recommended idle and initil timing be??? Do I start her low like between 10-15 degrees, and build the timing up quickly, or do I start her high, around 15-20degrees and graduate the timing with rpm.

 

The specs of the motor are:

- 350 Holley

- Extractors 2 1/4 inch exhaust/ straight pipe

- Balanced motor internal and external

- Ported head

- Crow 14776 204INT 214EXT

- Electric Fuel Pump

- Electric Fan

- Auto

- 3.45 diff gears

 

Because she is balanced, she really likes to revv, once she gets going, you are already going to change to next gear.

 

Final question, what would your total timing be??? 32 degrees??? and when should I hit total timing, if crows spec sheet says the cams range is 1500-4500rpm

 

All the info will be much help 

 

I must say ive never kept a valve train in order just blow it apart with a rattle gun put it all in a box

are you staying cast head? you want one? I have one out the back new guides fitted seats cut for 1.9s and 1.6 valves and its machined for screw in studs I robbed the valve train out of it as it has single piece single groove valves I just chucked it in the back of a wreck you can have it if you want it

 

 

Hey there PRO250,

 

Last person, I'm sorry for not responding, especially with that generous offer, unfortunately I won't be needing the head. BUTTTT, fortunately, I found out my head already has larger valves, so fantastic new there, I didn't do them, so they must of been done in the past, which is just an awesome surprise to find.

 

I got some port work done and what not, but I will eventually change to alloy, its lighter, got a better design, and alround nicer. Not that I have a problem with the IRON, if you get work done they are a really good head, but no harm in losing a couple kgs, the iron weighs a TONEEEE.

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