UPDATED 12-23-05!
Do not use any of the numbers posted here for anything useful to you. I have learned how to get more accurate readings to compare with as well as how to make it as consistant as I possibly can. I am leaving this post as a history of my learning:P Always remember to check that there are no leaks through other ports. Always check the calibration on the flowbench EVERY DAY! or even twice a day as temperature, humidity, and barometric pressure will throw things off a little. Use 2 test springs per valve to keep them from trying to open at the lowest lift testings (reason some of the low lift values posted in this thread are wrong). Shroud the intake and exhaust ports for more accurate, consistant readings. When testing manifolds, install the fuel injectors, and with the plenum on, tape off all open vacuum ports and ports to the other head that wont be there.
It has a digital readout on the box so I can write this shit down until I read the manual on how to do this with the software and get graphs. All at 28 inch pounds of water
Stock 3.1 Head without using clay (testing to see the real difference, ive read you need it to make the tests more accurate)
Intakes
.050 29.9 cfm
.100 54.4 cfm
.150 73.2 cfm
.200 92.0 cfm
.250 108.2 cfm
.300 122.1 cfm
.350 135.6 cfm
.400 146.2 cfm
.450 153.0 cfm
.500 158.0 cfm
Intake with Clay
.050 30.1 cfm
.100 56.8 cfm
.150 73.8 cfm
.200 98.4 cfm
.250 119.1 cfm
.300 138.2 cfm
.350 156.6 cfm
.400 167.4 cfm
.450 174.8 cfm
.500 177.0 cfm
Compared to what chris got with his stock 3.1 flowbenched.
.........no clay.......with clay.....chris' numbers
.050...29.9 cfm.....30.1 cfm
.100...54.4 cfm.....56.8 cfm......57.42 cfm
.150...73.2 cfm.....73.8 cfm
.200...92.0 cfm.....98.4 cfm......95.04 cfm
.250...108.2 cfm...119.1 cfm
.300...122.1 cfm...138.2 cfm....130.7 cfm
.350...135.6 cfm...156.6 cfm
.400...146.2 cfm...167.4 cfm....163.35 cfm
.450...153.0 cfm...174.8 cfm
.500...158.0 cfm...177.0 cfm....183.15 cfm
Do not use any of the numbers posted here for anything useful to you. I have learned how to get more accurate readings to compare with as well as how to make it as consistant as I possibly can. I am leaving this post as a history of my learning:P Always remember to check that there are no leaks through other ports. Always check the calibration on the flowbench EVERY DAY! or even twice a day as temperature, humidity, and barometric pressure will throw things off a little. Use 2 test springs per valve to keep them from trying to open at the lowest lift testings (reason some of the low lift values posted in this thread are wrong). Shroud the intake and exhaust ports for more accurate, consistant readings. When testing manifolds, install the fuel injectors, and with the plenum on, tape off all open vacuum ports and ports to the other head that wont be there.
It has a digital readout on the box so I can write this shit down until I read the manual on how to do this with the software and get graphs. All at 28 inch pounds of water
Stock 3.1 Head without using clay (testing to see the real difference, ive read you need it to make the tests more accurate)
Intakes
.050 29.9 cfm
.100 54.4 cfm
.150 73.2 cfm
.200 92.0 cfm
.250 108.2 cfm
.300 122.1 cfm
.350 135.6 cfm
.400 146.2 cfm
.450 153.0 cfm
.500 158.0 cfm
Intake with Clay
.050 30.1 cfm
.100 56.8 cfm
.150 73.8 cfm
.200 98.4 cfm
.250 119.1 cfm
.300 138.2 cfm
.350 156.6 cfm
.400 167.4 cfm
.450 174.8 cfm
.500 177.0 cfm
Compared to what chris got with his stock 3.1 flowbenched.
.........no clay.......with clay.....chris' numbers
.050...29.9 cfm.....30.1 cfm
.100...54.4 cfm.....56.8 cfm......57.42 cfm
.150...73.2 cfm.....73.8 cfm
.200...92.0 cfm.....98.4 cfm......95.04 cfm
.250...108.2 cfm...119.1 cfm
.300...122.1 cfm...138.2 cfm....130.7 cfm
.350...135.6 cfm...156.6 cfm
.400...146.2 cfm...167.4 cfm....163.35 cfm
.450...153.0 cfm...174.8 cfm
.500...158.0 cfm...177.0 cfm....183.15 cfm
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