bc.gold 3,403 #26 Posted March 21, 2021 On 3/19/2021 at 2:33 PM, seuadr said: is that actually a thing? Yes, I have given you a list of the magic metals in the above, when spending your hard earned $$$ be sure to purchase from an ISO certified manufacture who will stand behind their product and not simply toss in a spare set of brush's. Share this post Link to post Share on other sites
bc.gold 3,403 #27 Posted March 21, 2021 9 minutes ago, Maxwell-8 said: didn't work well in the 686cc in my opinion, had one, never done much hard work and in the end used more engine oil then gas. I much prefer to have the engine sleeved. wiseco.com Share this post Link to post Share on other sites
857lover 291 #28 Posted January 30, 2022 On 5/30/2020 at 8:28 PM, 953 nut said: Seem like this question is asked nearly every week on here. The answers given quite often include buying expensive Bore Gauges or Inside Micrometers. I have an inexpensive down and dirty method of evaluating the cylinder's wear that uses a tool nearly everyone has or could buy for around $ 5.00. A set of feeler gauges and a ring from the piston you just removed will let you know without any other equipment. It won't tell you how much it should be bored (though you can get close) but it will tell you if it is beyond the point of being successfully honed. In the photo below you can see the first step, placing a ring at the very top of the cylinder above the ridge. The piston ring end gap in this case is 0.080. The cylinder at the ridge measured standard at 3.25" and the cylinder walls and ring edges were worn smooth. Next I used the piston to move the ring down to a point just below the ridge. The piston helps keep the ring square to the cylinder wall. At this point the piston ring end gap increased to 0.110" This step was repeated three more times at 3/4 inch intervals. The results were 0.117", 0.118" and 0.117" Next the ring was moved to the bottom of the cylinder where the piton rings would not have contacted the cylinder walls. The piston ring end gap returned to 0.080". The greatest deviation of the ring end gap was 0.038". Now we can do a little fuzzy math to figure out how much the cylinder need to be bored. Changes in the ring end gap will be a change to the circumference. Bore changes would be a change in diameter. So, 0.038" divided by 3.14159 will show that the greatest wear in the cylinder is 0.012" larger in diameter than standard and should be bored 0.020". This is a quick easy way to get the job done without spending a bunch of money on tools you will never use again. You are going to need the feeler gauges when you put the engine back together anyway. that’s awesome man Share this post Link to post Share on other sites
maysey 7 #29 Posted March 9, 2023 Beware of the original spec sheets on some kohler engines cause mine said for .010 over bore on a K321 was supposed to be 3.510 is not necessarily true for all. 1 Share this post Link to post Share on other sites
horseman with no horse 26 #30 Posted September 16, 2023 On 5/30/2020 at 8:28 PM, 953 nut said: Seem like this question is asked nearly every week on here. The answers given quite often include buying expensive Bore Gauges or Inside Micrometers. I have an inexpensive down and dirty method of evaluating the cylinder's wear that uses a tool nearly everyone has or could buy for around $ 5.00. A set of feeler gauges and a ring from the piston you just removed will let you know without any other equipment. It won't tell you how much it should be bored (though you can get close) but it will tell you if it is beyond the point of being successfully honed. In the photo below you can see the first step, placing a ring at the very top of the cylinder above the ridge. The piston ring end gap in this case is 0.080. The cylinder at the ridge measured standard at 3.25" and the cylinder walls and ring edges were worn smooth. Next I used the piston to move the ring down to a point just below the ridge. The piston helps keep the ring square to the cylinder wall. At this point the piston ring end gap increased to 0.110" This step was repeated three more times at 3/4 inch intervals. The results were 0.117", 0.118" and 0.117" Next the ring was moved to the bottom of the cylinder where the piton rings would not have contacted the cylinder walls. The piston ring end gap returned to 0.080". The greatest deviation of the ring end gap was 0.038". Now we can do a little fuzzy math to figure out how much the cylinder need to be bored. Changes in the ring end gap will be a change to the circumference. Bore changes would be a change in diameter. So, 0.038" divided by 3.14159 will show that the greatest wear in the cylinder is 0.012" larger in diameter than standard and should be bored 0.020". This is a quick easy way to get the job done without spending a bunch of money on tools you will never use again. You are going to need the feeler gauges when you put the engine back together anyway. This method is great. The only time it’s worth buying those tools is if you do this work frequently and absolutely MUST Garuntee the work you do is solid. 1 Share this post Link to post Share on other sites
