ALL hub bolts - the 6 of them. I am sorry this is not clear, this implies the hubs are already on the sprockets, with all bolts in place but finger tight. this can be done with, or without the spline inserted, does not matter as you need to loosen all of them again to start the assembly, this is just to have visual marks for the torque settings. this works, it was tested, and you can repeatedly reach 14NM and have the marks aligned as long as you don't pull the screws out completely and inserted in another location

as for your comment above, I am sorry but you are not correct. and no, you don't have to bias the crank to achieve timing. if the preload process is done correctly it wont move. there are physical reasons for this which I bullet point bellow

• preload by tightening one bolt at a time skews the hub, which makes the spline to bin and as a result is dragged in separating the piston from the cap
• if preload is done by tightening side by side by small amounts (1/4 of a turn on this bolt is just 0.25mm of displacement), this allows the hub to rotate around the spline as it is being tighten, this wont drag the spline in

there are other potential ways around this, like torque the hubs with the splines in but out enough that they will remained bottomed out as the VNAOS unit is placed. the torque of the VANOS bolts will force it in place making the hubs to spin CCW. Not that I would do this, I told my friend not to try this even when he had been told this worked for his mechanic friend 100's of times. but hey, there are several ways to skin a cat, you pick what you feel more comfortable with.

BTW, we tried the bias approach, and the two times we did it we were off, at which point it was just more effective to do what we did (what I wrote). this sequence allowed the engine to be on time with both pins sliding easily with the bridge flat on the head.

How much do you bias and how? I have the same issue and even the torque marks and guide in post 3 give me the same issue. Do I bias the crank and then time up?

So when you say bias the cams. I should put the engine at TDC but not lock it. Then dial in cam to line with the bridge (tiny lift on tool on intake side when I tighten up) and this is technically biased?

Then rotate a few times and see if it all lines up with bridge when locked at TDC?

Thanks

Thank you! And I assume a few mm of bias on the crank is a tiny tiny amount, so it would mean just slight on either side of the I in OIT?

What if when checking intake cam, the gap is on the exhaust side of the bridge?

Correct, when I biased the crank it was just barely outside of the range where the lock could not be inserted. So basically instead of the locking hole being centered in the "window" it would be ever so slightly to one side or the other, depending on how you need to compensate for the cams.

If you have a gap on the exhaust side of head when checking the intake cam this means your intake cam is slightly advanced with crank at TDC1 so you would compensate by having the crank set slightly Counter Clockwise (retarded) of the locking hole when tightening your hub bolts up.

If just one cam is off I would probably just bias that cam, or if both cams are off by different amounts and you are OCD like me bias each cam as needed.

As I'm sure you are aware when you bias the crank you will affect both cams timing, so if one cam checks out (bridge is flat) and the other isn't you'll fix one but then mess the other up if that makes any sense.

So if on my exhaust cam when checking after bolting up. I have a lift on the bridge on the intake side, then I need to slightly retard the exhaust cam when timing before bolting up, or advance?
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this would mean after a few rotations. And lokxing at tdc1 I should have a flat bridge for the exhaust cam check?

Thanks!

If you have a lift on either side you do not want to live with you need to start over, retarding the cam will just make the tool sit flush at that moment, spin the engine and you are back at corner one, this means the spline gear moved on you during mating the VANOS to the head . You must maintain the splines and pistons fully bottomed out at all times. If not, there is a gap and the moment you spin the engine the gap closes by the pistons bottoming out and thus moving your camshaft forward.

You must be very methodical and slow during mating the VANOS to the head so nothing moves. Literally a quarter of a turn per side at a time. Then it all falls in place and even then an ever so slight lift or stickiness to the pins when inserting is fine.

I saw your post on torque markings and then making sure I did it evenly, and followed it it just did not work on both cams. I got intake spot on. Exhaust kept being out, so I biased that cam a tiny tiny bit. Anyway let's try tomorrow with a vanos test and see what happens