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Are you referring to the thread I started on Spitfire cams? I agree
completely, there is a lack of factual information. A few years ago,
I had great intentions of developing 6 cylinder cams with an
approach similar to the one I took for TR3/4 cams
(<a class="moz-txt-link-freetext" href="http://tildentechnologies.com">http://tildentechnologies.com</a>). One of the problems is that in
order to select a cam, you really need accurate and complete
numbers, both seat-to-seat and at 0.050. The problem with
seat-to-seat numbers is: (1) there usually wrong by at least 10
degrees (usually but not always understated) and (2) they don't tell
you as much about peak power as the numbers at 0.050. The problem
with seat-to-seat numbers has gotten so bad it is now called
"advertised" duration. What is that? Quoting numbers at 0.050 seems
to be an American thing (I think started by Harvey Crane). British
cam makers either don't have those numbers are they will not release
them. I will never buy a cam without 0.050 numbers. If we all took
that stand, then they would have to provide them. Given that, the
only way to proceed is to select cams with known characteristics and
measure the numbers. Comparable dyno data would be nice, but none
of us are likely to get this the way Kas did. The exercise of
measuring the cam can often be revealing, e.g. (1) valve lash that
opens and closes the cam on the high velocity flank causing seat
wear and valve bounce and (2) lift rates (velocity not acceleration)
that will cause running off the edge of the lifter. I agree that
larger lifters could allow a better design. Also, the lobes could
be much larger if you run without cam bearings, which could also
allow a better design curve as well as a stronger and stiffer
camshaft.<br>
<br>
I don't agree completely with your logic about a 0.490 lift limit.
If the cam gives 0.490 valve lift, that will occur for zero degrees
of duration. To have the valve open to 0.490 for any appreciable
period, the peak lift would be much greater than 0.490. Unless
there are clearance issues, you would not want a cam that goes up to
0.490 and abruptly stops due to inertia considerations and valve
train vibrational problems (valve float, etc.). <br>
<br>
We have debated the issue of flat versus crowned lifters several
times. I still maintain crowned lifters is the industry standard
method. I know that Ford has used it for many years. A properly
crowned lifter correctly matched to a tapered lobe was first
introduced to compensate for the imperfect alignment you mentioned.
It will also produce better lifter rotation.<br>
<br>
Just getting the names of cams that work is not going to be of much
help. You really need the full set of numbers to see trends in what
works and what doesn't work. I have an old Cam Doctor set up on an
ancient DOS PC (one with card slots). It is a PITA to use, but
beats measuring by hand. I once requested people send me some good
cam examples, but Bob Lang was the only one that sent any.
Unfortunately, they didn't sound that interesting, so I still have
them and haven't yet measured them. Sorry Bob, at least I haven't
forgotten them. The only cam I've measured is a BP270, which is a
good street cam (it's actually 260 duration). I'd love to have
detailed measurements on a 150hp PI cam and some of Kas's race
cams. I wouldn't mind getting back to this, but I'm more interested
in street cams now that I am out of racing. I could easily help
with some design work, but don't want to get back into producing and
selling. Several years ago, I started a spreadsheet similar to the
one I did on TR3/4 cams and could post it for download at my website
if anyone is interested. It is not really adequate due to the lack
of complete numbers on many cams. <br>
- Larry<br>
<br>
<div class="moz-cite-prefix">On 11/12/2015 1:35 AM, Enquiries Road
& Track wrote:<br>
</div>
<blockquote
cite="mid:CA+UW8b0gU5nKdVExrRMjAdWdaDy7HULgLNE0tSkQh36uAub1+A@mail.gmail.com"
type="cite">
<div dir="ltr">there seems to be very little factual info in the
recent thread and i'm hoping to fix this by starting this new
thread and challenge other racers to share some some real info
<div><br>
</div>
<div>i previously offered the comment that cams cant be
considered in isolation and a race engine is quite different
to a street engine, with few practical compromises</div>
<div><br>
</div>
<div>it would probably help everyone if interested people listed
what 6 cylinder cams they have used/are using along with a few
other comments and what their thoughts are. of course, every
cam grinder/vendor espouses the virtues of their own product,
but only on forums like this can we get any real world
experiences. </div>
<div><br>
</div>
<div>I'll start with some experiences gleaned over 40 years with
these engines...</div>
<div><br>
</div>
<div>the cam lobes are rarely perfectly aligned with the lifter
bores and vice versa. triumph 6 cylinder cam lobes are meant
to be perfectly flat and so are the lifters. the rotation of
the lifters comes from offsetting the lobes relative to the
lifter centre. if you test this during disassembly/ assembly
using engineers blue on your lifters, you will see what is
going on and probably be horrified as to how bad some are.
experiences with flogged out lifters and/or lobes often point
to problems here. i have had occasions to move the cam to
correct this (by changing the thrust plate fractionally), but
its a trade-off and brings about other issues. some of the the
turkish made cam blanks i've seen have poor control over lobe
separation and the cam grinder cant correct this. <br>
</div>
<div><br>
</div>
<div>the factory cam grind can be identified by the number of
rings machined into the front bearing. when we could get
factory blanks out the back door, they had no rings on them,
but neither did the early 2000 cams. from sometime in mid70's,
the cam 'stock" got thicker which is a good thing. early
'thin" cams (Mk1 GT6 etc) cannot be modified very much as the
base circle encroaches on the stock . these days, radically
welded up cams to fix this shortcoming are rare, so the
problem has basically gone away by using new blanks.</div>
<div><br>
</div>
<div>the oiling flats machined into the front and rear journals
are perilously close to the end plates and some cam makers
stuff this up. anyone assembling the engine should check this
lest they end up with unexpectedly low oil pressure. a real
problem if you have switched to a slightly thinner alloy front
plate.</div>
<div><br>
</div>
<div>most modified 6 cylinder heads stop flowing at about 0.490"
valve lift (on inlet) so there is not much point in a
cam/rocker system that opens the valve more then is needed. To
choose a real 'race" cam, you really need this head flow info
for your engine. without it you are just guessing. </div>
<div><br>
</div>
<div>most race spec TR cams seem to rely on long durations,
typically 300 degrees plus (this is valve motion, not 050"
duration which is more like 245 degrees). if you have a
factory/Lucas PI engine, then cams like this are still quite
street drivable with the injection properly set up. The
factory TR5/6 PI cam is a struggle on carbies, bordering on
horrible, because it produce so little vacuum at idle. </div>
<div><br>
</div>
<div>The factory TR5/TR6 PI cam has valve duration of 280
degrees and it is "mild". This cam grind, which is commonly
copied, is great on any PI street engine, especially if the
compression is raised as far as you can get it with the fuel
available to you. On 98RON fuel, i have run these at 12;1 with
conventional (but modern) cast pistons. distributor re-curving
is a must</div>
<div><br>
</div>
<div>The factory 2500PI cam has valve duration of 260 degrees
and works just fine with carbies. we used to fit these to US
imported TR6's and raise the compression at same time get
another 10-15HP.<br>
</div>
<div><br>
</div>
<div>it is not possible to grind a modern aggressive long
duration, high lift cam, on any original TR cam without an
awful lot of welding, which typically bends the cam to a point
of useless. it is hard to even find blanks that will do this ,
but they are out there. </div>
<div><br>
</div>
<div>these modern design, aggressive race cams can't be run
with a conventional triumph lifter. the lifter diameter needs
to increase about 040" as a minimum to stop what is known as
edge riding. The cam acceleration rate (how fast it can lift
or close) is mostly governed by lifter diameter. oversized
lifters require block modification which is not hard.</div>
<div><br>
</div>
<div>For a race cam, the lobe will look like a house brick with
some rounded edges. anything that looks like your original cam
lobe, probably wont cut it in a race engine. </div>
<div><br>
</div>
<div>I have run hundreds of modified 6 cyl engines without cam
bearings and with zero issues. having said that, the latest
cam grinds will benefit from the added support a block with
bearings will give. also, if done properly, this should
improve oil pressure by reducing losses from cam journals.</div>
<div><br>
</div>
<div>A recent 2500 engine for a mostly track car............</div>
<div>98RON fuel, 12:1 comp, long exhaust primaries, highly
modified head (intake flows 150cfm@25"@0.550" lift)</div>
<div>cam 308 intake valve duration, 250@ 050". max lift on
intake 0.495" </div>
<div>comment. sounds fantastic & pulls like an ox all the
way to 6750 (imposed) limit. almost too lazy. for a race
engine. currently being changed to more aggressive cam</div>
<div><br>
</div>
<div><br>
</div>
<div>Terry</div>
</div>
<br>
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