Topic: Adjustable cam gear

[Johnny340]

Am I correct in concluding that I should not use my stock, non adjustable, cam gear to go in my new 836 engine with a CX-3 cam (63A)?  Getting an adjustable gear and degreeing in the cam would be the best choice for performance, yes?  Do guys slot their stock gear?

[kmb69]

Am I correct in concluding that I should not use my stock, non adjustable, cam gear to go in my new 836 engine with a CX-3 cam (63A)?  Getting an adjustable gear and degreeing in the cam would be the best choice for performance, yes?  Do guys slot their stock gear?

Yep, that works.

[innovativems]

Mrieck on here did mine.  He is recovering from a shoulder surgery though


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[HondaMan]

You can get a new adjustable from Dynoman or [sometimes] CycleX, too. You'll probably have to slightly grind out the slots, as they are plated post-machine, and the slots get a little slim.

[754]

 APE   ACS 750 H is the one you need. If you have access to a rotary table it is easy to slot them yourself.

[PeWe]

Grind a Honda sprocket as much you need. The adjustable sprockets can handle a cam chain that is set 1 tooth "wrong".
I have a grinded sprocket that is opened around 2 mm in both directions.

[754]

There is a flanged Yamaha bolt, many are using for better grip, the part number escapes me , maybe someone has it.?

[PeWe]

The Suzuki bolt have even wider head. I use that one. My tuner here told me what he might put in my engine early 80's. A bolt I searched for.
Here a thread were I compare different cam bolts, Honda, Suzuki and Yamaha often recommended
http://forums.sohc4.net/index.php/topic,157585.msg1805937.html#msg1805937

[Johnny340]

Good info, thx!

Any suggestions what to run a CX-3 cam at in this Wiseco 836?

[HondaMan]

Good info, thx!

Any suggestions what to run a CX-3 cam at in this Wiseco 836?

I'd recommend splitting the increased dwell time across the intake-exhaust degrees, based on the intake valve.
For example (I don't know the CX-3 specs, but same idea), if the dwell is quoted as being "30 degrees more than stock", and stock is 5 degrees open BTC and 5 degrees close ABC, then adjust the cam to open at (5+(30/2))=20 degrees BTC and close 20 degrees ABC.

There are other methods, which shift the power earlier or later, depending on your needs, but know this (if you understand some calculus): the area under the power curve is constant, regardless of how you shape it with the cam, for a given lift number. So...if the power comes on at, say, 4500 RPM when you set the new cam as above, but you instead shift the cam back about 5 degrees (open at 15 degrees, close at 20 degrees) then the power will also start later, more toward 5000 RPM and it peaks out higher when it reaches the max efficiency for that cam dwell angle. Since the upper RPM is mechanically limited  by the valve-piston clearance, there is a practical upper limit to this: if you go above 10,500 RPM for the upper end, you'll probably need some more valve spring to keep the parts out of each other's sphere of influence...

[Johnny340]

Good info, thx!

Any suggestions what to run a CX-3 cam at in this Wiseco 836?

I'd recommend splitting the increased dwell time across the intake-exhaust degrees, based on the intake valve.
For example (I don't know the CX-3 specs, but same idea), if the dwell is quoted as being "30 degrees more than stock", and stock is 5 degrees open BTC and 5 degrees close ABC, then adjust the cam to open at (5+(30/2))=20 degrees BTC and close 20 degrees ABC.

There are other methods, which shift the power earlier or later, depending on your needs, but know this (if you understand some calculus): the area under the power curve is constant, regardless of how you shape it with the cam, for a given lift number. So...if the power comes on at, say, 4500 RPM when you set the new cam as above, but you instead shift the cam back about 5 degrees (open at 15 degrees, close at 20 degrees) then the power will also start later, more toward 5000 RPM and it peaks out higher when it reaches the max efficiency for that cam dwell angle. Since the upper RPM is mechanically limited  by the valve-piston clearance, there is a practical upper limit to this: if you go above 10,500 RPM for the upper end, you'll probably need some more valve spring to keep the parts out of each other's sphere of influence...

Thanks for the reply Mark, but I don't know what the dwell is on this cam.  Does this pic of the specs help?



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[Johnny340]

So I slotted the stock gear myself.  I got 248° for duration measured at .050" and ended up setting the cam at 97° lobe center for the intake which was 100° for the exhaust. That's what the girls at webcam said to do.
Does anyone know what the purpose of the bolt in the end of the camshaft is for?  (8mmx20 with a washer)  The new cam has this hole tapped too..

Couple pics of the setup I used if anyone is searching here later:

[754]

The bolt and washef somewhat control sideplay  I am thinking.

[Johnny340]

That sounds logical.  Thanks for the response Frank.
Cheers,
John