it is a long long long time ago that i have posted something, that's a good sign
because it tells that i have been busy in the mean while.
till so far the parts i have gathered:
- coated pistons (side dry lubricant, top ceramic)
- balanced rods
- balanced crank (next week)
- fidanza flywheel (balanced together with crank)
- ARP rod bolts
- notched engine block D14a4
- flowed and gasket-matched cilinderhead (combustion chambers coated ceramic)
- gasket-matched D15 IM
- OBD-1 ECU swap with 240 cc injectors
- flowed oil pump
- megan racing header
- skunk2 cam gear
the NEW adjustments i made (i'm not going to repeat the current one's)
i have deceided to coat the combustion chambers because someone told me iff the heat can't go trough the pistons it will find it's way of the least resistance
+ it gives even a stronger combustion.
i have gasketmatched the IM the mostly on the points where the injector sprays, i believe when u gasket-match this spot a little tapered, the spraypath (or how this is called in proper english) will be beter and more divided over the air that is passing by.
and finally flowing the oil pump because i have read it is 25 to 40 % more efficient and that means more oil to cool and less power to turn the pump. The build/modify inscription (found on a belgium website) was very clear and the modifications made sense except for one important part:
(take in mind that i am a skilled metalworker/machiner and i know a thing or 2 about materials)
if you modify internal parts of an engine you really really do not want pieces of material floating around in your oil, leading to catastrophic engine failure.
the engine of a car has to deal a lot with temperature changes, it 's cold when it starts etc you know the story...... when you apply two different materials on each other the have to deal with to different expansions because every material has it's one thermal expansion coefficient. if this happens a lot with two materials stuck on each other they will crack because one of the materials expans more than the other.
this is the result when using putty of some material like this for flowing the pumps internals, the idea is good but i have improved this feature. in the current situation you have to deal with two kinds of aluminum (the one is the casted aluminum and the other is the aluminum putty).
my idea is to thread the hole deeper where the allen plug was placed and place an allen plug to fill the whole thread deepth and mark the spot you want to create the radius to improw oil flow. when you have acces to a milling machine, preferably CNC
its easy to mill the radius in, but the easiest way is to grind the radius of. when you have done that you place the allen plug back in the whole ( I concider to fix the allen plug with some loctite). i have learned that a bolt or a threaded piece will go in a threaded hole in one way only so this is why this method is easy.
the only downside is that you will not receive the ideal flow but it is a real good way in that direction.
the BIG upside of the story is that u are GUARANTEED that u will not have nasty aluminum particles in your engine, floating around in your oil and wasting your bearings.
for the rest of it the article of the modifing was superb and a good discription
http://www.hondaclub-belgium.be/viewtopic.php?f=9&t=198
within a couple of weeks i will begin to build up the engine...
then i wil post some pics
D14 has way less stress on it's rods compared to D15 and D16's because a D14 has a high Rod to stroke ratio (R/S ratio).Every D15 and D16 engine has a very low R/S ratio only the D14 and D13 have very high R/S ratio's.You can compare those 2 with a B16b and B16A engine.D14 having the same R/S ratio as a B16a engine.
