I tore into my wife's '78 CB550K over the holidays as the cylinder head oil feed O-rings had begun to leak over the summer. I had originally planned to just replace the offending parts and the head/base gaskets, but like any project, one thing leads to another... I'm sharing my experience trying this in case anyone else was thinking about doing these mods, and hopefully it will help them out.
I had PM'd HondaMan to ask about some stuff for my CB750. I mentioned that I had the 550 apart and was there anything in addition I should do with it. He suggested that I polish the intake valves, clean up the intake ports and match/smooth the intake runners. (All these are outlined in the "Thoughts of HondaMan" thread.) At first, I thought "Nah.. I've never done that kinda stuff before and we've been happy with the bike the way it is." After thinking over the reasons why I should leave it alone, I grabbed the Dremel and proceeded with Mark's (HondaMan) advice.
After a thorough cleaning of the head I assessed the situation. Sure enough, there was a bad mismatch between the intake openings in the head and inner walls of the intake runners. The insides of the runners are very coarse due to the sand casting cores. There were lots of casting marks inside both the intake and exhaust ports. There were also "ledges" in the aluminum around the valve seats from the machining operations that form the seat pockets. The valves were coked up badly with carbon. These were all things that could be improved upon, so I set to work.
Intake PortsHere are a couple views of the intake ports before the work was performed, with notes:
I found the best bits for doing the work were high-speed steel hemispherical cutting bits for doing the primary metal removal (you can also go with the carbide ones, but the HS steel ones have larger flutes in the cutter, which works better for shaping aluminum), then small 3/8" flap wheels (both medium and fine) for smoothing out the grinding marks and polishing, and finally a small Scotch-Brite wheel for the final polish:
I started with the basic stuff, like removing the casting marks and blending in the port better with the ID of the valve seat. This made it easier to plan the next steps. The main thing is to narrow the valve guide boss about 25%, making for rounded "valleys" on either side of it. The top of the boss can be feathered into the tapered portion of the guide as well. Here are pics partway through:
After a bit more work. Still needs more clean-up work before the final polish (sorry for the poor picture quality as my penlight was dying- it doesn't really show the "valleys" too well.):
I'm really wishing I'd gotten some pictures of the finished ports, but I didn't have access to the camera and I had to get the bike back together. The next time the carbs are off I'll have to get a pic.
Some key things to keep in mind: Wear safety glasses and a dust mask as the cutting bits will throw little aluminum slivers all over the place and the sanding flap wheels generate a lot of metal dust. Also, I put a strip of heavy duct tape around the valve seat so as not to accidentally nick it with the Dremel. Be sure to wash the head thoroughly in hot water and detergent to make sure you've cleaned all the grit out of it.
Exhaust PortsAll I did here was remove the casting marks. I didn't remove anything else as the surrounding metal is important for conducting heat away from the valve guide and I am running a stock exhaust, which is pretty restrictive.
ValvesI cleaned the carbon off the valves and re-lapped them. For the intake valves, I polished the backsides. This can be done easily by chucking them in a drill or lathe and working on the backsides with emery cloth, making sure not to touch the sealing face, or neck down the valve stem. All the valves were reassembled with new seals. (Unfortunately, I didn't get before and after pics.)
Intake RunnersThe inside surface of the intake runners had to be smoothed out. I used a large coarse flapwheel to accomplish this, followed by a fine wheel and then Scotch-Brite. Here are the results, before the final polishing:
When I went to match up the intake runners to the ports, I noticed there was a bit of slop in the fit of the mounting holes in the runners and the corresponding studs in the head. This could mess up the concentricity of the mating bores. To tighten up the fit, I bought a piece of small thin-walled aluminum tubing from the local hobby shop and made small sleeves to take up the gap. The 9/32" diameter fits snugly in the holes. On one side it only took one sleeve on one set of runners to hold them snug, and the other took only two. With the runners now securely positioned, I could match the bores. I wasn't able to obtain any spotting dye, so I had to do most of the work by feel. With the runner mounted to the head, I felt along the joint with my finger and noted the areas where I could feel mismatch. I'd then grind away some material and refit the runner, checking the joint. Once the joint felt smooth all the way around, I polished up the tweaked areas. I know, it wasn't the most scientific method, but it worked fairly well and the fit between the parts is much, much better.
CarburetorsLastly, I checked the throats of the carbs to see if the screw plugs that seal the vacuum tap ports for balancing the carbs protruded into the bores. This can sometimes happen and disrupt airflow. This was not the case with my carbs, so nothing needed to be done here:
If they did stick out, I would have to grind them down flush with the wall of the carb throat.
I got the engine back together and test-ran it. It started easily and ran well once warmed up. The carbs will need balancing as the intake characteristics have changed, but I'll wait until it warms up some and I can test ride it (we're in the middle of an ice storm now, so no riding any time soon
). I'll post the test-ride results as soon as I can. Then I might try the other tweaks, like adding 4 teeth to the rear sprocket, altering the spark advance curve and changing the jetting. As you can see, I'm no Mike Rieck when it comes to head work, but I'm happy with the way it turned out, being a noob. I probably could have gone farther, but I did what I was comfortable with.
I want to thank Mark for all his help, advice and encouragement during this project. I can't wait to test-ride it!
