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To
view a copy of our complete blueprint spec sheet for our engines, blocks,
cylinder heads, and rotating assembliesclick
here.
AUTO MATH 101
DISPLACEMENT
BORE X BORE X STROKE X .7854 X # CYLINDERS =
CUBIC INCH
DISPLACEMENT
PISTON TO DECK CLEARANCE VOLUME
BORE X BORE X 12.87 X PISTON TO DECK CLEARANCE [PLUS
OR MINUS ]
EXAMPLE:4.030 X 4.030 X
12.87 X .009 = 1.88cc
COMPRESSED GASKET VOLUME
BORE X BORE
X 12.87 X COMPRESSED GASKET THICKNESS
EXAMPLE: 4.030 X 4.030 X
12.87 X .030 = 6.27cc
NET COMBUSTION CHAMBER VOLUME
1. DOME
PISTON EQUATION
NET
COMBUSTION CHAMBER VOLUME = COMBUSTION CHAMBER VOLUME--PISTON DOME VOLUME
+ [PISTON DECK CLEARANCE + COMPRESSED GASKET THICKNESS]
EXAMPLE: 64cc HEADS, 12cc DOME PISTON, 1.88cc OF PISTON TO
DECK CLEARANCE AND 6.27cc OF COMPRESSED GASKET VOLUME
64-12=52
1.88+6.27=8.15
52+8.15=60.15cc
NOTE: ALL
CALCULATIONS MUST BE IN cc's
2.
DISHED OR FLAT TOP PISTON EQUATION NET COMBUSTION CHAMBER VOLUME = COMBUSTION
CHAMBER VOLUME + PISTON DISH OR VALVE POCKET VOLUME + PISTON DECK
CLEARANCE + COMPRESSED GASKET THICKNESS
EXAMPLE: 64cc HEADS, A-12cc PISTON DISH OR VALVE POCKET, 1.88cc OF PISTON
TO DECK CLEARANCE AND 6.27cc OF COMPRESSED GASKET VOLUME
64cc + 1.88
+ 6.27 =84.15cc
NOTE: ALL
CALCULATIONS MUST BE IN cc's
COMPRESSION RATIO
{ CUBIC
INCH DISPLACEMENT} ÷ {# CYLINDERS} x {16.39} ÷ {NET COMBUSTION CHAMBER VOLUME}+
1
EXAMPLE:
DIVIDE 355 BY 8 = 44.375
MULTIPLY
44.375 NY 16.39 = 727.306
DIVIDE
727.306 BY YOUR NET COMBUSTION CHAMBER VOLUME, LETS SAY IT'S 60.15 = 12.09
add 1
YOUR
COMPRESSION RATIO WOULD BE 13.09-1
BORE / STROKE RATIO
BORE ÷
STROKE
EXAMPLE:
4.030 ÷ 3.48 = 1.158
ROD
RATIO
CONNECTING
ROD LENGTH ÷ CRANKSHAFT STROKE
EXAMPLE:
5.700 ÷ 3.489 = 1.637
PISTON SPEED
STROKE
IN INCHES X RPM ÷ 6
RESULTS
MEASURED IN FEET PER MINUTE
EXAMPLE:
3.48 X 6000 ÷ 6 = 3480 FPM
CARBURETOR CFM
BIGGER IS
NOT ALWAYS BETTER
WE MUST
KNOW THE THEORETICAL AIR CAPACITY TO DETERMINE THE VOLUMETRIC EFFICIENCY
THEORETICAL
CFM = RPM X DISPLACEMENT ÷ 3456
VOLUMETRIC
EFFICIENCY = ACTUAL CFM ÷ THEORETICAL CFM X 100
STREET
CARB. CFM = RPM X DISPLACEMENT ÷ 3456 X .85
RACING
CARB. CFM = RPM X DISPLACEMENT ÷ 3456 X 1.10
CAM LIFT vs. GROSS VALVE LIFT
CAM LIFT OR LOBE LIFT X ROCKER RATIO
= GROSS VALVE LIFT
THIS
LEADS ME TO THE NEXT FORMULA TO DETERMINE MY GROSS VALVE LIFT IF I CHANGE MY
ROCKER RATIO SUCH AS , INSTALLING 1.6 SBC ROCKERS WITH A COMP. CAMS XTREME
ENERGY # XE 268H CAMSHAFT. CURRENT LISTING STATES .477/.480 LI9FT w/1.5 ROCKERS
VALVE
LIFT ÷ ROCKER RATIO = LOBE LIFT [ CAM LIFT ]
LOBE
LIFT X ROCKER RATIO = GROSS VALVE LIFT
EXAMPLE: .477 ÷ 1.5 = .318 [ LOBE LIFT ]
.318 X
1.6 = .5088 [ GROSS VALVE LIFT ]
NOTE:
IF THE CAM HAS A DIFFERENT LIFT FOR THE EXHAUST,
USE THE SAME FORMULA FOR THE EXHAUST. ALL OTHER SPEC'S FOR THE CAMSHAFT
REMAIN THE SAME.
THEREFORE THE COMP. CAMS #XE 268H USING 1.6 ROCKER RATIO PRODUCES .508/
.512 LIFT.
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