Side by side, 351C high- and low-compression chambers are easy to spot. On the left is the
The 351 Cleveland has never been easy to build because the best parts are elusive. Because Ford produced this engine for just four short years, it has become harder and harder to find parts in recent years. What's more, Cleveland castings have long been plagued with failure issues (cracking). Some can be repaired, but a lot of them cannot.
We can dream of Aussie heads, which are expensive and hard to find. And we may also consider aftermarket aluminum heads for the Cleveland, but those don't come cheaply, either. So, lets go with what you can expect to find at a swap meet or in the classifieds for your 351C build. Our good friend John Douglas in Riverview, Florida, builds a lot of 351C engines annually. He knows how to build a streetable 351C that you can live with daily and make lots of power with on a Saturday night.
The 351C block offers unprecedented strength in two- and four-bolt main versions. Through many 351C buildups, we have learned that all versions of this block are virtually the same except for two- or four-bolt main caps. All two-bolt main blocks can be drilled and tapped for four-bolt main caps. Strength comes from heavy main webs wrapped around 2.749-inch main bearing journals. Ironically, the 351C has a smaller main bearing journal than the 351W, which is larger at 3.000 inches. Smaller mains yield less friction, which is likely the motivation behind the smaller main bearing size on the 351C.
Cleveland oiling systems from the factory fall short in terms of oil delivery to the main bearings, which bites a lot of us who build Clevelands. It's a good idea to begin Cleveland oiling system mods at the pump. Opt for a Speed-Pro high-volume pump, which yields 25 percent more volume thanks to a wider G-rotor package and cavity. It is also advisable to install a 100-psi pressure-relief spring if you're going racing. Ideally, you will blueprint your 351C oil pump before installation. MCE Engines in Los Angeles, California, can blueprint a Cleveland oil pump for you and ship it ready-to-install. The next oiling system mod is a restrictor kit from Moroso (PN 2205), which improves oil flow to the main bearings.
The good news with Cleveland engines is that they're hardy blocks that need a little help if you intend to go racing. For street use, they need minor modification. As we have learned from other engine builds, oil passages need to be worked smooth to reduce oil turbulence. The same is true for oil drainback holes, which need help to improve oil scavenging.
We suggest having any Cleveland block checked for cracks and thin cylinder walls before proceeding with machine work. Sonic checking cylinder walls helps find weaknesses before machine work. Magnafluxing the block and crank is also necessary prior to getting started. Work out stress risers and other rough spots to prevent weaknesses and failure. You can use a die grinder on any block to eliminate weaknesses. The objective here is to reduce or eliminate any chance of failure. Coating inside surfaces with GE's Glyptol, available from The Eastwood Company, improves oil-return flow and keeps stray iron particles where they belong.
This is the 73-77cc open chamber (low compression) found on all 2V heads, all 1972-74 4V h
Cleveland Vs. Windsor-What's In A Name?
How did 351ci engines get their names? When Ford came out with a second 351ci V-8 in 1970, Ford dealer technicians found themselves faced with a lot of confusion when it came to engine identification. It is virtually impossible to confuse the 351W with a 351C because they have completely different cylinder head and block architecture. In 1970, both were still so new that Ford needed to explain the differences and give each engine a family name. Ford's solution was to name each engine for the plant from which it was produced.
Raised-deck 351ci engines were named "Windsor" for their Canadian plant across the river from Detroit. Poly-angle-valve 351ci engines with wide valve covers were named "Cleveland" for their northeast Ohio roots.
These names stuck and have been used ever since. Some confusion abounds with Cleveland and Windsor because 221/255/260/289/302ci engines were also produced at the Cleveland Engine Plant. Their castings were produced at the Cleveland foundry. Added confusion abounds when we find 289/302 heads produced at the Windsor foundry. The rule of thumb is 221/255/260/289/302ci engines were Cleveland based, with all of them produced in Cleveland. The 351W engine was Windsor produced. By the same token, the 351C was Cleveland produced exclusively.
Whenever we call 221/260/289/302ci engines Windsor small-blocks, we're mistaken. None were ever produced in Windsor. Only the 351W was produced in Windsor, Ontario-along with a smattering of 289/302 small-block heads.
Here's the more desirable 61-67cc wedge chamber (high compression) used with the 4V and Bo
All Cleveland foundry castings have this logo. Because all 351C, 351M, and 400M castings w
Clevelands and Midlands have different cooling passages between the block and heads from w
Externally, 351C-4V heads are identified by this "4" in each corner.
Screw-in adjustable rocker stud pedestals look like this. This is also what you can expect
Hydraulic lifter 351C engines have this bolt/fulcrum rocker-arm fulcrum designed for a no-
John Douglas' porting regiment includes taking stress risers and bumps out of chambers and
John specifies Fel-Pro in his engine builds. We recommend Fel-Pro Print-O-Seal head and in
Cylinder head installation and torque values may not seem like a big deal, but they are. W