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Gentlemen,
I didn't want Brian's thread on the Kerzel build to get too far off track. I know there is a discussion about valves and valve sealing but rather than add to it I thought I would post a little of my findings on a new thread.
First to answer Nick's question about just knocking the edge off of a square seat, the answer is yes, but let me present some of my information.
As a lot of members are finding out it's quite tricky (in some cases) to get the valves on an IC engine to seal properly. There are generally 3 methods of machining ports and seats. The first method would be to machine a hole for an inserted valve guide and then the port. The second would be to machine the valve guide into the head followed by the port and lastly to machine a pocket in the head to accept a valve cage.
The problem with all of them is that the initial hole is generally done with a drill followed by a reamer for the valve guide or valve guide insert. Herein lies the problem. There is no way to guarantee that the hole will be concentric to the desired center point. Now depending whether you use a new drill or a resharpened drill for the pilot the hole could be very close or a little off. The reamer will only follow the drilled hole.
As a remedy to this problem you say well then I'll make valve cages separately and press them into the head. You still have to do the same operations on them as you did when you machined them into the head.
Ideally a cutter should be made that would incorporate a reamer for the valve guide at the tip and farther back a counterbore that would then cut the port opening. You would naturally rough out the holes and then follow up with this tool. It would have the rigidity to keep everything in line (hopefully).
I don't do valve cages, why, because I think it's just to much more work. If I have the tools to do the job why not just do it all in one operation?
Now for the fellows that do it this way don't get your hackles up. If it works for you by all means continue doing it.
Here's what I do. Once my initial guide and port are machined in I make up a seat cutter from drill rod that incorporates a stem that fits very closely into the valve guide hole. Above that I enlarge the tool to just under the diameter of the port. This way you won't get any flex if you are using very small valve stems. Now above the larger port diameter I machine a 45* angle out about .08 larger in diameter. This is then fluted and hardened. If you go to page 3 of this thread you will see a picture of the cutter I'm describing.
http://www.homemodelenginemachinist.com/index.php?topic=6205.30
To cut my seat I put the cutter into a small drill chuck, oil the stem, insert it into the guide/port and then just with the weight of the chuck rotate it by hand until I get a nice 'small' seat. I have found that you only need to break the edges on the port to get a good seal.
Now the next problem area, the valves. First off I have made different styles of valves and from several materials. You can use drill rod or stainless steel or for that matter CRS. I have made them from one piece and I have hard brazed caps on the stems. Whichever way you choose to go the critical step is making sure that the stems and heads are concentric, not close but real close.
To machine a valve from one piece, even ones with very small stems I start out by just turning enough material to cut a retainer slot into it. (see Steve's V-8 build). Some valves I don't use a retainer but rather thread the end of the stem for a screw on retainer. I keep cutting back toward the valve head in small steps so that I maintain the rigidity of the stock. Now at this point you could make up a small cup to fit over the end of the valve and put your live center into it to help support the stem but I have never found this necessary. I just continue to cut to my dimension each time and then finally polish up the stem with fine emery paper. I stay away from the head whatever amount my fillet is going to be. I then go in with a tool that has the desired radius on it and cut the fillet. I have my compound swung over to 45* and cut my seat area. With this compete I cut the valve off leaving it a little long so that I can face it down to the proper thickness later.
To make 2 piece valves, the ones with the brazed on heads I make up my stems and heads, braze them together then mount them in a collet. I then indicate them until the indicator doesn't move, at all! Now if you don't have collets here's another way to make a holding device.
Take a piece of brass rod the diameter of which can be about .188 or so larger than your valve stem. Mount it in your 3 jaw chuck and mark it's location relative to the #1 jaw. The reason for this is because even though a chuck won't necessarily repeat for different diameters it most always will repeat for the same diameter. Now carefully drill and ream a hole the size of your valve stem. I then take a very small slitting saw and cut into one side of it to split it open. You now have a collet. I have a small container of these 'collets' and even though my Craftaman 3 jaw chuck has been used for years when I put them into the chuck they are usually within .0005
Now chuck your valve up as close to the collet as feasible to get a tool between the head and the collet and machine your fillet, seat and face. 'TAKE SMALL CUTS'
As a final operation, I slide the valve into the guide and grip it with a small drill chuck from the spring side allowing enough length to let the valve move up and down a little. I charge it with a little bit of very fine valve grinding compound and give it a few turns, back and forth and up and down. Then take the valve out and with a magnifier look at both the seat in the head and the surface of the valve. If they don't look uniform repeat the process until they do. If everything was machined well it should take very little lapping to get them to seat evenly.
I hope this helps some of you who are having issues with this part of IC building.
It sounds like a lot of work but I find that these operations are the most critical to getting a good cylinder seal.
George
I didn't want Brian's thread on the Kerzel build to get too far off track. I know there is a discussion about valves and valve sealing but rather than add to it I thought I would post a little of my findings on a new thread.
First to answer Nick's question about just knocking the edge off of a square seat, the answer is yes, but let me present some of my information.
As a lot of members are finding out it's quite tricky (in some cases) to get the valves on an IC engine to seal properly. There are generally 3 methods of machining ports and seats. The first method would be to machine a hole for an inserted valve guide and then the port. The second would be to machine the valve guide into the head followed by the port and lastly to machine a pocket in the head to accept a valve cage.
The problem with all of them is that the initial hole is generally done with a drill followed by a reamer for the valve guide or valve guide insert. Herein lies the problem. There is no way to guarantee that the hole will be concentric to the desired center point. Now depending whether you use a new drill or a resharpened drill for the pilot the hole could be very close or a little off. The reamer will only follow the drilled hole.
As a remedy to this problem you say well then I'll make valve cages separately and press them into the head. You still have to do the same operations on them as you did when you machined them into the head.
Ideally a cutter should be made that would incorporate a reamer for the valve guide at the tip and farther back a counterbore that would then cut the port opening. You would naturally rough out the holes and then follow up with this tool. It would have the rigidity to keep everything in line (hopefully).
I don't do valve cages, why, because I think it's just to much more work. If I have the tools to do the job why not just do it all in one operation?
Now for the fellows that do it this way don't get your hackles up. If it works for you by all means continue doing it.
Here's what I do. Once my initial guide and port are machined in I make up a seat cutter from drill rod that incorporates a stem that fits very closely into the valve guide hole. Above that I enlarge the tool to just under the diameter of the port. This way you won't get any flex if you are using very small valve stems. Now above the larger port diameter I machine a 45* angle out about .08 larger in diameter. This is then fluted and hardened. If you go to page 3 of this thread you will see a picture of the cutter I'm describing.
http://www.homemodelenginemachinist.com/index.php?topic=6205.30
To cut my seat I put the cutter into a small drill chuck, oil the stem, insert it into the guide/port and then just with the weight of the chuck rotate it by hand until I get a nice 'small' seat. I have found that you only need to break the edges on the port to get a good seal.
Now the next problem area, the valves. First off I have made different styles of valves and from several materials. You can use drill rod or stainless steel or for that matter CRS. I have made them from one piece and I have hard brazed caps on the stems. Whichever way you choose to go the critical step is making sure that the stems and heads are concentric, not close but real close.
To machine a valve from one piece, even ones with very small stems I start out by just turning enough material to cut a retainer slot into it. (see Steve's V-8 build). Some valves I don't use a retainer but rather thread the end of the stem for a screw on retainer. I keep cutting back toward the valve head in small steps so that I maintain the rigidity of the stock. Now at this point you could make up a small cup to fit over the end of the valve and put your live center into it to help support the stem but I have never found this necessary. I just continue to cut to my dimension each time and then finally polish up the stem with fine emery paper. I stay away from the head whatever amount my fillet is going to be. I then go in with a tool that has the desired radius on it and cut the fillet. I have my compound swung over to 45* and cut my seat area. With this compete I cut the valve off leaving it a little long so that I can face it down to the proper thickness later.
To make 2 piece valves, the ones with the brazed on heads I make up my stems and heads, braze them together then mount them in a collet. I then indicate them until the indicator doesn't move, at all! Now if you don't have collets here's another way to make a holding device.
Take a piece of brass rod the diameter of which can be about .188 or so larger than your valve stem. Mount it in your 3 jaw chuck and mark it's location relative to the #1 jaw. The reason for this is because even though a chuck won't necessarily repeat for different diameters it most always will repeat for the same diameter. Now carefully drill and ream a hole the size of your valve stem. I then take a very small slitting saw and cut into one side of it to split it open. You now have a collet. I have a small container of these 'collets' and even though my Craftaman 3 jaw chuck has been used for years when I put them into the chuck they are usually within .0005
Now chuck your valve up as close to the collet as feasible to get a tool between the head and the collet and machine your fillet, seat and face. 'TAKE SMALL CUTS'
As a final operation, I slide the valve into the guide and grip it with a small drill chuck from the spring side allowing enough length to let the valve move up and down a little. I charge it with a little bit of very fine valve grinding compound and give it a few turns, back and forth and up and down. Then take the valve out and with a magnifier look at both the seat in the head and the surface of the valve. If they don't look uniform repeat the process until they do. If everything was machined well it should take very little lapping to get them to seat evenly.
I hope this helps some of you who are having issues with this part of IC building.
It sounds like a lot of work but I find that these operations are the most critical to getting a good cylinder seal.
George
