jimmeh
07-03-2006, 12:09 PM
reference: http://www.theoldone.com/articles/b16a%5Fhead/index2.html
B-16 Cylinder Head Mods (Part II)
Here's the promised continuation. These views are all of a finished customer B-16 cylinder head. The intended use is normally aspirated, i.e.. high compression with a bottle feeding it at the drag strip. The engine is a .020" over B-16 in a late model Si. We are also responsible for the pistons.
http://www.theoldone.com/articles/b16a%5Fhead/4%20B-16%20fin.jpg
Here's an overall view of the deck surface and combustion chambers on this B-16 head. Note that all water passages and sharp edges have been thoroughly deburred.
http://www.theoldone.com/articles/b16a%5Fhead/5%20B-16%20fin.jpg
You may be able to see that the left hand combustion chamber had some debris venture through at some time in its past. We were able to fix most of the "tics" and replace the left intake seat to restore the chamber to optimum configuration. Note that we mill the quench areas (intake and exhaust) to specific depths to mate with the corresponding surfaces on our pistons for maximum defined turbulence during combustion.
http://www.theoldone.com/articles/b16a%5Fhead/3%20B-16%20fin.jpg
This is a good view of the finished chamber, as well as the finished intake ports. Note that the valve seats are of a single angle variety, with the lower approach a blended extension of the port, rather than a series of stepped discrete angles. The radius of the lower portion of the intake seats varies from the short turn around to the long wall to effectively equalize the overall port lengths. Note that the exhaust seats consist of a blended short top angle transitioning to the actual seat, blending into a radius. This type of seat configuration is essential, if high flow rates are to be achieved on this side of the engine.
http://www.theoldone.com/articles/b16a%5Fhead/1%20B-16%20fin.jpg
Here's a similar view from the opposite side of the head. The radius on the exhaust seat configuration is easily seen, with bowl and guide preparation visible as well. Note the single angle intake seats with the chamber as the top and OD defining "angle".
http://www.theoldone.com/articles/b16a%5Fhead/6%20B-16%20fin.jpg
One more view of the chamber and the transition from the ports to the cylinder .....the all important valve seats. This view also shows the port texture on the intake side pretty well. As you can see, it's not smooth. You can also see where the texture has been "altered" to energize the flow a bit on each side of the intake bowls, beginning approximately .85" below the seats. Notice the texturizing in the sides of the chambers between the intake and exhaust valve seats. More mixture conditioning.
Now, I'm following up with some "what happened" photos. As most of you know, I'm pretty well handicapped, when it comes to all this web site stuff. For the life of us here, nobody can figure out what went screwy with the camera, but these strange photos, do show some detail that might not be so evident otherwise.
http://www.theoldone.com/articles/b16a%5Fhead/2%20B-16%20Final.jpg
We've been accused of using sorcery in our work by competitors for years, and perhaps the camera caught us this time. Things of note are the symmetry of each bowl, the blended seats, and the width of the "blunt" divider. We keep this wide and softly radiused because it reduces the tendency for turbulency that's often associated with sharp dividers. Remember, the leading edges of airfoils aren't sharp.
http://www.theoldone.com/articles/b16a%5Fhead/5%20B-16%20Final.jpg
No... we didn't use an arc-light. This particular head is assembled and gone, so these pics will have to do. These are the two center exhaust ports. While I tried to center the camera, it's a little off to the left. It should be pretty evident that the two valves in each port have radically different bowl and short turn radius configurations. Remember that the ports are directional on these Honda heads, so one's a left-hander and the other is a right hand port. Note that the divider is brought to a dull edge. The fact that the port exits are still smaller than the original gasket (header flange) size is also of great importance.
http://www.theoldone.com/articles/b16a%5Fhead/6%20B-16%20Final.jpg
(A) also shows the single discrete exhaust seat angle. Note that it disappears in the blend that forms the radius, transitioning into the port. This picture also shows the upper discrete angle (B) that defines the OD of the seat as well as setting up the flow. This discrete top angle blends smoothly into the combustion chamber.
That about sums it up on this installment of the B-16 cylinder head mods. We'll be showing other Honda heads during and after modification, as we're able. While it's nice to be able to read about porting details, but a picture's worth a lot more than a thousand words when it comes to this stuff.
As, I stated earlier....when porting a head, you must be able to "see" the shapes you're planning to create. The most important areas to work for flow are all in the valve seat area. You can make damned near any port flow 90-95% of a fully worked configuration, by doing only the chamber, the seats and 3/4" into the ports. The ports' entries and exits may be the easiest stuff to reach and slick-up, but those parts really don't mean anything when it comes to flow.
Take your time when porting, never get in a hurry and don't destroy the curves of the short turn radiuses. Contrary to what might "seem" to be a more direct path for the flow, you have to maintain large radiuses, or the flow can't negotiate the turns.
Happy grinding!
B-16 Cylinder Head Mods (Part II)
Here's the promised continuation. These views are all of a finished customer B-16 cylinder head. The intended use is normally aspirated, i.e.. high compression with a bottle feeding it at the drag strip. The engine is a .020" over B-16 in a late model Si. We are also responsible for the pistons.
http://www.theoldone.com/articles/b16a%5Fhead/4%20B-16%20fin.jpg
Here's an overall view of the deck surface and combustion chambers on this B-16 head. Note that all water passages and sharp edges have been thoroughly deburred.
http://www.theoldone.com/articles/b16a%5Fhead/5%20B-16%20fin.jpg
You may be able to see that the left hand combustion chamber had some debris venture through at some time in its past. We were able to fix most of the "tics" and replace the left intake seat to restore the chamber to optimum configuration. Note that we mill the quench areas (intake and exhaust) to specific depths to mate with the corresponding surfaces on our pistons for maximum defined turbulence during combustion.
http://www.theoldone.com/articles/b16a%5Fhead/3%20B-16%20fin.jpg
This is a good view of the finished chamber, as well as the finished intake ports. Note that the valve seats are of a single angle variety, with the lower approach a blended extension of the port, rather than a series of stepped discrete angles. The radius of the lower portion of the intake seats varies from the short turn around to the long wall to effectively equalize the overall port lengths. Note that the exhaust seats consist of a blended short top angle transitioning to the actual seat, blending into a radius. This type of seat configuration is essential, if high flow rates are to be achieved on this side of the engine.
http://www.theoldone.com/articles/b16a%5Fhead/1%20B-16%20fin.jpg
Here's a similar view from the opposite side of the head. The radius on the exhaust seat configuration is easily seen, with bowl and guide preparation visible as well. Note the single angle intake seats with the chamber as the top and OD defining "angle".
http://www.theoldone.com/articles/b16a%5Fhead/6%20B-16%20fin.jpg
One more view of the chamber and the transition from the ports to the cylinder .....the all important valve seats. This view also shows the port texture on the intake side pretty well. As you can see, it's not smooth. You can also see where the texture has been "altered" to energize the flow a bit on each side of the intake bowls, beginning approximately .85" below the seats. Notice the texturizing in the sides of the chambers between the intake and exhaust valve seats. More mixture conditioning.
Now, I'm following up with some "what happened" photos. As most of you know, I'm pretty well handicapped, when it comes to all this web site stuff. For the life of us here, nobody can figure out what went screwy with the camera, but these strange photos, do show some detail that might not be so evident otherwise.
http://www.theoldone.com/articles/b16a%5Fhead/2%20B-16%20Final.jpg
We've been accused of using sorcery in our work by competitors for years, and perhaps the camera caught us this time. Things of note are the symmetry of each bowl, the blended seats, and the width of the "blunt" divider. We keep this wide and softly radiused because it reduces the tendency for turbulency that's often associated with sharp dividers. Remember, the leading edges of airfoils aren't sharp.
http://www.theoldone.com/articles/b16a%5Fhead/5%20B-16%20Final.jpg
No... we didn't use an arc-light. This particular head is assembled and gone, so these pics will have to do. These are the two center exhaust ports. While I tried to center the camera, it's a little off to the left. It should be pretty evident that the two valves in each port have radically different bowl and short turn radius configurations. Remember that the ports are directional on these Honda heads, so one's a left-hander and the other is a right hand port. Note that the divider is brought to a dull edge. The fact that the port exits are still smaller than the original gasket (header flange) size is also of great importance.
http://www.theoldone.com/articles/b16a%5Fhead/6%20B-16%20Final.jpg
(A) also shows the single discrete exhaust seat angle. Note that it disappears in the blend that forms the radius, transitioning into the port. This picture also shows the upper discrete angle (B) that defines the OD of the seat as well as setting up the flow. This discrete top angle blends smoothly into the combustion chamber.
That about sums it up on this installment of the B-16 cylinder head mods. We'll be showing other Honda heads during and after modification, as we're able. While it's nice to be able to read about porting details, but a picture's worth a lot more than a thousand words when it comes to this stuff.
As, I stated earlier....when porting a head, you must be able to "see" the shapes you're planning to create. The most important areas to work for flow are all in the valve seat area. You can make damned near any port flow 90-95% of a fully worked configuration, by doing only the chamber, the seats and 3/4" into the ports. The ports' entries and exits may be the easiest stuff to reach and slick-up, but those parts really don't mean anything when it comes to flow.
Take your time when porting, never get in a hurry and don't destroy the curves of the short turn radiuses. Contrary to what might "seem" to be a more direct path for the flow, you have to maintain large radiuses, or the flow can't negotiate the turns.
Happy grinding!