|
Main Menu |  |
 | Home |
 | Account |
| Casting Codes |
| General |
| Galleries |
| Calculators |
| Support |
| Resources |
|
| |
|
Membership | |
|
Total Hits | |
We received
193756
page views since July 2006 | |
|
2009 EVENTS | |
| S |
M |
T |
W |
T |
F |
S |
|---|
| |
1 | 2 | 3 | 4 | 5 | 6 | | 7 | 8 | 9 | 10 | 11 | 12 | 13 | | 14 | 15 | 16 | 17 | 18 | 19 | 20 | | 21 | 22 | 23 | 24 | 25 | 26 | 27 | | 28 | 29 | 30 | 31 | |
|
|
| |
| |
Welcome!
|
|
 | Degreeing a Camshaft |
 THE FOUR CYCLE ENGINE
Indeed, cam degreeing is simple, but first let's make
sure you have a good understanding of the cam's function
in the four cycle engine. You probably already know
the four basic strokes of the four cycle engine: INTAKE,
COMPRESSION, POWER, and EXHAUST. Each stroke
represents one-half of a revolution of the crankshaft or
180 crank degrees. 4 cycles x 180° = 720° or two revolutions
of the crankshaft. Two revolutions complete one
sequence of the four strokes. The camshaft is connected
via the timing chain and sprockets at a 1:2 ratio to
the crankshaft and therefore revolves once for every
two turns of the crank. Its purpose is to operate the
intake and exhaust valves in the correct timing with the
piston as it sequences thru the four strokes.
EARLY SLOW SPEED ENGINES
In the old days, the first four cycle engine had very short
valve timing, but rightfully so because these were slow
speed engines. The engineers of the late 1800's were
only concerned with harnessing power of the gasoline
and air explosions in an internal combustion engine to
propel an automobile, hopefully, a little faster than a
horse. They were merely concerned with getting the
engines to run at slow speeds. Even in their wildest
inspirations they would never have believed that a quhttp://www.iskycams.com/ARTer
or half century later, with better structures, these
same engines would be revved five times as fast and
produce many times more power.
EARLY SLOW SPEED VALVE TIMING
The old valve timing then was: Intake valve opens at
T.D.C., and as the piston lowers, it draws in the fuel/air
mixture; the intake valve then closes at (B.D.C.)
hence, the intake stroke. The piston rises, with both
valves closed to compress the fuel/air mixture.
hence, the compression stroke. The spark plug fires
and ignites the fuel/air mixture which drives the piston
down to B.D.C. (again the valves are closed)... hence,
the power stroke. Also, the exhaust valve opens at
B.D.C. The burnt gases, due to their high pressure, virtually
expel themselves, and the piston drives the last of
the gases out; the exhaust valve closes at T.D.C..
hence, the exhaust stroke. These early engines had Oo
overlap or no overlap whatsoever.
|
|
|
Posted by pontiacthunder on Wednesday, January 02 @ 12:27:38 EST (64 reads)
(Read More... | 35785 bytes more | Score: 0)
|
|
|
| 1970 Trans Am |
1970 Pontiac Firebird Trans Am
Firebird and Camaro grew more European in nature with their second-generation redesign, but the scooped and spoilered 1970 Pontiac Firebird Trans Am was pure American muscle car, and more immodest than ever. 
With the introduction of the second-generation Firebird, the 1970 Pontiac Trans Am came into its own as a bare-knuckles brawler. Functional spoilers
and vents abounded, while super-tough underpinnings and
quickened steering gave it corner-hungry handling.
|
The 1970 Pontiac Trans Am's standard engine, the 345-horsepower Ram Air 400-cid V-8, furnished low-14-second elapsed times at the dragstrip. That apparently satisfied most buyers, because just 88 of the 3,196 Pontiac Trans Ams built that year got the optional Ram Air IV. That one added bigger ports, better heads, swirl-polished valves, and an aluminum intake manifold for 370 horsepower, 25 more than in '69. Rarer still was the Ram Air V, an over-the-counter, special-order piece that counted among its tricks solid lifters and tunnel-port heads for as much as 500 horsepower.
|
|
|
Posted by pontiacthunder on Tuesday, May 22 @ 10:02:03 EDT (122 reads)
(Read More... | 9724 bytes more | Score: 0)
|
|
|
| 12 Second 400CID Pontiac Build |
 Pontiacthunder has collected data and tested many Pontiac engine combos and has come up with, what we feel, a nice collection of builds to make your Pontiac perform to your needs.
Over the next several months we will list detailed builds with performance levels from 12 second ET's from a relatively stock 400, to deep into the 9's with a 455. We’ll even take you through the build of a 517CID Pontiac Monster destined for sub 8 second quarter mile times from one of Pontiacthunders very own members.
This month, check out a simple build for a 400CID Pontiac that is geared for the budget minded! This combo has run in the mid 12’s at 110MPH in one of our own cars and is reliable enough to be street driven on pump gas!
|
|
|
Posted by pontiacthunder on Monday, November 13 @ 11:01:54 EST (270 reads)
(Read More... | 2443 bytes more | Score: 0)
|
|
Advertising
 |
|
| |
|
Picture of the day | |
|
Surveys | |
|
Advertisement | |
|
Shout Box | |
|
Streaming Video | |
|
Hot Parts | |
|
|
Online Stats: 
