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Rod Length Ratios

8th Oct 2014

Rod Length Ratios

There are as many theories about rod lengths as there are any other subject that deals with racing.
As strokes get longer, rod lengths get shorter and at some point in time, this will create a problem. We don't know if we've crossed the line yet, but we're definitely leaning on it. At the same time, there's a point where rod lengths can get too long for a particular stroke and we're leaning on that line also.
Rod length ratios are calculated by dividing the rod length by the stroke.Example: a 5.000" rod length divided by a 3.000" stroke equals a 1.67 rod ratio.
For a good illustration of what increasing the rod length does for an engine, we'll use a 350 Chevy.A stock 5.7" rod divided by a stock 3.480" stroke gives us a 1.637 rod ratio.Now, put a 6.00" rod in it with the same stroke and the ratio increases to 1.724 and the engine produces more power and rpm.. This is a known fact that's been around for some 25 years.
A stock, 5 hp. Briggs & Stratton engine uses a 3.875" rod and has a 2.437" stroke which equals a 1.59 rod ratio.We know that by changing the rod to 4.475" and using the same stroke, the ratio increases to 1.863 and the engine produces more power and rpm.
The most important thing that a longer rod does is increase the dwell time of the piston when it's at top dead center (TDC) and this will make more power.The second most important thing is that it improves the leverage the piston exerts on the crank journal and this also increases power.
Another feature of using a longer rod is that it creates a much friendlier environment for the piston, cylinder and crankshaft to operate in.Consider this: The piston is moving up and down in the cylinder trying to make a crankshaft rotate in a circle. When the piston is in a down stroke, the resistance of the crankshaft is trying to push it out the front of the block and in an up stroke, with the resistance of compression, the crankshaft is trying to push it out the back of the block.Our recent test engine had a 4.225" rod with a 3.000" stroke equaling a 1.408 rod ratio and we believe we may have gone beyond the short rod ratio limit but, the engine made a bucket full of power and survived even at 9,300 rpm.
Rest assured that one day we'll reach the point of sheer stupidity.