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GLOSSARY OF CAMSHAFT TERMS
Advertised Duration: The actual valve opening and valve
closing period, taken from a theoretical point when valve leaves and
regains the seat.
Area Under the Curve: The area the curve envelopes when lift and
duration are plotted on a graph, two cams have the same duration and lift
but the area will be greater.
Base Circle: Also referred to as the heel, and is the round
portion of the camshaft where the tappet settings are made.
Base Circle run out: This is the most common problem faced in
the camshaft area . The base circle must be within 0.0015" on any
hydraulic cam. If the run out is over his engine will not idle on all
cylinders.
Billet Cam: This is the term for a camshaft made from a solid
piece of cast iron or steel bar. 99% of steel camshafts are made this
way.
Boost: The amount of pressured air forced into the engine by
mechanical means, measured in lbs per sq. in. or by a barometer in inches
of mercury. One inch of mercury is equal to 2lbs per sq. inch and
atmosphere is equal to approximately 14.7lbs per sq. inch.
Castings: This is the term used for a new camshaft. Most new
cast iron camshafts start life out as a casting not as a billet. Ivan
Tighe Engineering have the facilities to make new ones off billet cams for
special applications.
Camshaft Follower: Usually a radiused, flat faced or roller
bearing, running directly on the cam lobe, transferring the action of the
camshaft to the rest of the valve train.
Camshaft Master: This is a precision template or master which is
used to grind the lobe shape on camshafts. For each different profile, a
different master is required.
Cam profile: The actual shape of the camshaft lobe. At Ivan
Tighe Engineering these profiles are generated by computer or by
mechanical method.
Clearance Ramps: The start and finish of the profile shape. This
is the slow constant lift section (.00035" - .00055") per degree of cam
rotation. The reason for this is to compensate for small deflections and
take up the slack in the valve train.
Coil Bind: A valve spring that has been compressed to the pint
that the coils are stacked solid, preventing any further downward
movement.
Core: The term used for a camshaft that is used on an exchange
basis. A core is required if a regrind camshaft is supplied.
Damper: This is the term used for the flat spring used in some
single or dual spring applications. The flat spring allows a more complex
spring for valve control without raising the spring tension
considerably.
Differential Angle: The difference between the angle of cylinder
centre line and the angle of the cam follower centre line. Most commonly
found in V6 and V8 engines and in rare 4 cylinder engines.
Desmodromic: A complex type of valve gear where each valve is
operated by two lobes. One lobe opens using a normal rocker and the other
closes using a reverse rocker to close the valve. No valve springs are
required to control valve motion.
Duration: The amount of time in degrees that the valves are off
their seats during the opening period of the cam.
Duration =
opening degree + closing degree + 180 deg
Fitted Dimension: Referring to the valve spring. This is the
height of the fitted spring when the valve is closed. Measured from the
cylinder head to the seat of the spring retainer (also known as installed
height).
Flame Hardening: This is a hardening technique using
oxy/acetylene torch
to heat a camshaft to a cherry red which is then
quenched in a water based coolant.
Flank: The side of the cam lobe that lies between the nose and
the base circle. This is the area that most wear occurs.
Gear Drive: This gives precision perfect cam timing and
eliminates cam and distributor timing errors or changes due to wear or
chain stretch.
Gross Lift: The theoretical valve lift obtained by multiplying
the cam lift by the rocker arm ratio. This does not take into
consideration the tappet setting.
Hardfacing: This is the process used to build up O.H.C. type and
most motor cycle camshafts. The original profile is ground back and a
layer is placed over the top - the camshaft is then trimmed and finish
ground.
Heel: Same as the "Base Circle" - the concentric part of the cam
lobe where the tappet settings are made.
Induction Hardening: An electrical process of heat treating,
where a camshaft is passed through a coil, through which a high frequency
current is passed. The camshaft inside the coil is quickly heated to a
cherry red and quenched in oil. Ivan Tighe Engineering hardens all new
camshafts using this process.
Inner Valve Spring: This refers to the smaller valve spring used
inside the standard single type spring. The advantage of the inner spring
is lighter seat tension cam still obtain high nose pressure, giving better
valve control.
Interference Fit: This term is used in reference to valve
springs. The inner spring is a very tight or push fit in the outer spring.
This allows lower spring tension to be used. This type of spring requires
lots of lubrication or spring breakage may occur.
Lash Caps: A small cap placed on top of the valve to give the
hydraulic lifter more preload. Available for 9/32, 11/32, 3/8 and 8mm
valve stems.
Lobe Centers: This it the angle between the inlet or exhaust
lobe on the one cylinder and the Top Dead Center position when the
camshaft is in the engine. Measured in degrees and normally between 95deg
and 120deg the inlet is measured after T.D.C. - exhaust is measured before
T.D.C.
Lobe Center Calculation: Inlet: op. deg + cl. deg /2 - op. deg =
lobe center line
Exhaust: op. deg + cl. deg /2 - cl. deg = lobe centre
line
Lifter: See "Cam Follower".
Lubriteing: This is the black coating on all the cast iron
camshafts. It is simply an anti scruff coating so as to stop metal to
metal contact on initial start up. The process is applied at approximately
100deg c and uses a combination of phosphor and graphite. Contrary to
popular belief it has no effect on hardness at all. Also sometimes called
Parkerising.
Mushroom Lifter: This is a flat type lifter that has the head of
the lifter a larger diameter that the body of the lifter. These are
standard equipment in some 4cyl. Engines, but are fitted in some races
engines to allow profiles with very rates of lift (very high lift with
short duration)
Nett Lift: The actual lift of the cam as measured at the valve.
This can be obtained approximately by multiplying the cam lift by the
rocker ratio and subtracting the tappet clearance. In an O.H.C. rocker
engine this is only a guide, the actual may vary by up to .040" or
more.
Normally Aspirated: An engine that has a carburettor or is fuel
injected without any mechanical devise that forces air under pressure onto
the combustion chamber.
Nose of Cam: The highest point of the cam lobe and often the
area where most wear occurs.
Offset Bushes: These are round offsets available for pin drive
camshafts, so they can be advanced and retarded without drilling other
holes in the drive gears.
The drive hole in the cam gear is simply
drilled to take the bushing. Available for most common pin drive cams.
Offset Key: This is a stepped key that is used to advance and
retard camshafts that are driven by a key rather than a dowel.
O.H.C.: Over Head Cam type engine
Outer Valve Spring: In a double spring combination the outer
spring is always the larger of the two springs. The outer is also the
higher tension and should be wound in a different direction to the
inner.
Overlap: The period where both inlet and exhaust valves are open
at the same time - when the piston passes T.D.C. every second time. To
determine the degrees of overlap add the opening of the inlet and the
closing of the exhaust together from the valve timing supplied by the
manufacturer.
Phase Angle: The angle between the inlet and exhaust lobe of a
camshaft and is measured in degrees. This is taken as the angle on the
camshaft not in the engine and is often confused with lobe centres. Can
also be called lobe separation angle.
Posi Locks: These re the locking type nuts used to lock the
adjustment on a studded roller rocker. A long type of nut with a grub
screw so as to lock the nut on the stud.
Preload: The term used for the load that is applied to the
hydraulic lifters during engine assembly. A lifter requires at least
0.010" preload so not to rattle.
Pre-lube: A molly based grease that is supplied in the box with
all new camshafts. It is used to coat the lobes when fitting the cam to
eliminate the possibility of lobe failure at the critical start
period.
Ramps: This is the slow acceleration section at the start and
finish of most camshafts profiles. For solid cams the ramps may be as long
as 15deg and 0.020" - for hydraulic cams this must be below 0.006" for the
cam to function.
Ramp Height: This is the height from the base circle to the top
of the ramp of the cam profile. The advertised valve timing is taken at
the top of the ramps. The tappet settings are also determined by the ramp
height.
e.g. .020" ramp height 1.5:1 rocker ration
Tappet setting = (0.020"
x 11.5) minus 0.001"
= 0.029" (Normal tappet setting)
Regrind: Term used when a worn camshaft is reprofiled to the
same profile or modified to a different profile. To achieve this the bulk
of the shaft may need undercutting to keep the base circle above the shaft
diameter.
Rockwell Hardness: The type of hardness testing used to check
the hardness of most hardened materials. Rockwell C process uses 120deg
diamond with a weight of 150kg. of preload on it. This is loaded into
material, and depth of the indent is measured . The result of this is
given in a Rockwell C measurement.
e.g. A cast iron cam is approximately 56r/c
A steel roller cam is
approximately 60r/c
Solids: This term is used in reference to solid cam followers -
the hydraulic section of the lifter is replaced by solid internals.
Solid camshaft: If hydraulic followers are replaced by solid
followers the camshaft profile must be changed so as to suit the solid
followers.
Split Overlap: This occurs on the overlap stroke when inlet and
exhaust valves are open the same amount at the same time. If the camshaft
being used has the same profile on both lobes, split overlap will indicate
that the cam is in square in the engine (neither advanced or
retarded).
Spring Fatigue: The tremendous heat generated by continual
stressing of the valve spring will eventually cause it to sag or fatigue,
A valve spring will settle approximately 10% as soon as fitted.
Spring Height: See Installed Height
Spring Pressure: The force exerted by the spring on the valve to
keep the valve following the camshaft profile correctly.
Spring Retainer: This is a stepped type washer that located the
top of the valve spring on to the top of the valve. Can be made if steel,
aluminium or titanium. Stepped retainers also available to extend spring
installed height.
Steel Billet: A solid piece of steel bar stock that is made into
a camshaft. Ivan Tighe Engineering machine their roller type camshafts in
this manner.
Super Charged: A driven pump that forces air into the engine.
This type use engine power to turn the supercharger and the impellers can
be centrifugal, roots or vane type.
Tappett Setting: The valve clearance that the cam profile
requires to be set at to achieve best working conditions. This is required
to allow for thermal expansion.
Valve Bounce: this occurs when the engine is revved higher that
the valve springs will permit. The valve will no longer follow the cam
profile and will crash back onto the valve seat. This will cause loss of
power and , if prolonged, will cause valve failure, shorten camshaft/
lifter life and cause considerable damage to engine components.
Valve Train: The components or parts used to operate the valves
in conjunction with the camshaft.
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