Anyone familiar with automotive projects knows that the best-laid plans are sometimes simply suggestions, which the universe discards as irrelevant, and implements its own timeline for things. While it isn’t the ideal situation by a long shot, sometimes adversity breeds excellence, and in this case, that is definitely the track the project is now on.
The project, dubbed Boosted Coyote, started as a simple 2015 Mustang GT with a Roush TVS supercharger, decent suspension, and full interior which was making in the 750-rear-wheel horsepower range, and running 9.80s in the quarter-mile. However, the stock internals soon gave up the ghost and the car’s owner, Ivan Korda, commissioned a mild rebuild of the short-block and had the heads machined. Unfortunately for him, there were a myriad of issues with the rebuild.
This only became apparent once Ivan fired up his newly rebuilt engine to the worst possible sound anyone can imagine hearing upon startup of a fresh rebuild; metal on metal. By the time Ivan got the engine shut down, it was too late. The engine was full of hate and discontent, and it needed to be pulled apart once again. That is where this story starts for us.
We Can Rebuild It; Better, Stronger, Faster…
With the engine in need of a full rebuild at this point, Ivan was at a decision point – just get the engine running, or finally step it up and begin the progress towards the four-digit horsepower mark. Of course, Ivan being a gearhead through and through, the latter was the only reasonable option.
Knowing that there was a Whipple 2.9-liter twin-screw supercharger just sitting on his shelf, and what that supercharger is capable of producing, it was time to build an engine which will not only handle the 850 rear-wheel horsepower his current fuel system is capable of supporting, but would be capable of growing with his horsepower goals.
In order to do everything right, a plan was hatched to contact noted Coyote tuner and parts manufacturer Livernois Motorsports and Engineering. Before anyone started throwing parts out, the first step was a meeting with the Livernois staff to clearly define the project’s goals – a streetable 1,000-horsepower-capable Coyote engine, built for a significant amount of boost from the intercooled positive-displacement supercharger, which isn’t a cookie-cutter combination.
Since Ivan plans on driving the car to and from and track, along with cruising it around on the street, street manners needed to be maintained, while incorporating the durability demanded by single-digit quarter-mile passes, along with the occasional half-mile jaunt down the airstrip thrown in. No small feat to ask of a 5.0-liter Coyote engine that will eventually make north of 1,000 horsepower at the wheels.
The discussion with the staff at Livernois, which included Dan Millen and Andy Ricketts, boiled down to us recreating the Livernois Powerstorm Pro-Series short-block and the Powerstorm Race-Series cylinder heads, using Ivan’s existing, salvageable parts, and then Livernois performing the assembly of the engine, and shipping it back to Ivan, ready to drop in the car.
However, the first step in that process was to have Livernois perform an autopsy to not only see what happened, but to see what of the components were actually salvageable in the first place. Little did anyone know just how bad it was going to be.
The Initial Inspection
As Livernois engine builder Fonzie Novelo started the teardown, it became quickly apparent that there were two separate categories of issues with this engine: Components which were incorrectly installed by the machine shop and likely caused the damage, and damaged components. Unfortunately for Ivan, there weren’t many parts in the third “can be reused” category.
Ricketts walked us through the teardown and inspection process, with some of the engine’s issues obvious without spinning a single wrench. “Upon first inspection, before teardown began, it became obvious to us that some items were incorrect. Visually, it was apparent that along this engine’s past life, one cylinder head’s cam caps had been installed backwards,” Ricketts says. “While they happened to be on the correlating cam towers, they were facing the wrong way on the cylinder head.”
To the automotive detectives of Livernois, it suggested that the valvetrain and timing system required a closer look. “We discovered that the engine had been timed incorrectly. Based on our finding of an upgraded oil pump, it’s likely that when the engine was reassembled after the installation of this pump, it had been timed to Gen1 Coyote specifications,” Ricketts explains of the post-mortem. “Gen1 timing specs are completely different than Gen2, which are also different than Gen2 truck, and Gen3 specs.”
The last incorrect item found was an incorrectly-installed balancer. “The balancer was installed without ensuring proper clearance existed between the hub and the crankshaft,” Ricketts recounts.
Those issues led to an incredible amount of damage, especially for an engine with simply an initial start-up on its run-clock. “If you count the engine as one area, then the damage could be considered confined to one area. Unfortunately, it was not confined to one system, and the damage was extensive,” Ricketts explains.
“The cylinder head cam journals were damaged and heavily worn, as well as the camshafts themselves. Upon further inspection of the heads, it was apparent that the valves had crashed, damaging the valves, pistons, guides, and chambers. The crankshaft snout and balancer hub were also damaged.”
CSI: Livernois Motorsports – The Anatomy of a Disaster
Because we are serious tech junkies and have more than a little bit of morbid curiosity (and maybe because we watch too many CSI shows on TV, but that’s neither here nor there), we asked the team at Livernois, to break down how the failures occurred and explain the damage step by step. Much to their credit, they indulged us.
“This was absolutely a domino effect, but with 2 dominoes starting at different points, making the failures happen very quickly and completely,” says Ricketts of the carnage. “Let’s look at the 3 different main areas of failures. That is the cam caps (1); incorrect timing (2); and balancer to hub interference (3).”
First, we’ll look at area number-one, the cam caps. “Due to the incorrect cap orientation, oil flow and clearances were incorrect causing the cams to gall the aluminum of the heads, which in turn caused the heads to damage the cams,” Ricketts explains. “This oil flow issue was exacerbated by prolonged cranking due to incorrect cam timing as well. You had a zero-flow condition with incorrect clearances, which made for a perfect storm to cause the cams to seize.”
Next, we move on to the issue of incorrect timing, which according to Livernois, had the largest impact on the extent of the engine’s physical damage. “As mentioned in the first area, [the incorrect timing] created a long-crank/hard-start condition due to one bank being in time, and the other out of time. This ran the cams dry, and started to seize on the bank with incorrect cam cap orientation.” CSI Ricketts explains.
“Once it did start, and once the lash adjusters pumped up, it crashed the valves and heavily damaged the pistons, heads, valves, and timing system, as well as the engine block itself.”
Then, there is area number-three, the issue of the incorrectly installed balancer. “The crankshaft and balancer were both damaged due to the clearances being too tight on the balancer hub,” says Ricketts, wrapping up the most gruesome part of the autopsy results. “We didn’t see any signs of wear due to power levels. Fortunately – or unfortunately, depending on your outlook – all of the damage was all related to the failures.”
We Can Save It… Kinda
With the damage uncovered, our next course of action was to determine how to repair it all. One thing that had to be very strongly considered was the level at which this engine will be asked to perform. There are certain areas that for a completely OEM-power-level application, a repair would be a viable option. However, we need to remember what we want to accomplish with this engine.
“Unfortunately in the performance world, there really is only one way to address these damaged areas, and that is to replace them,” Ricketts says. “Now, had this been a car with no power upgrades, and the only goal was to have a running engine again, maybe you would consider repairing rather than replacing and starting fresh, but we would never go that route as it would eventually fail due to the nature of those lower cost options.”
“For us, while the components we use for the replacement/upgrades may change based on the end goal for a given project, the basic premise of replacing the damaged items is our policy, explains Ricketts. “Whether a daily driver build, or a 1,500-plus-horsepower drag car, sometimes the reset button, while more costly, ensures a better result even at mild levels.”
An Ounce Of Prevention
Unfortunately, with all the layers peeled back, it was found that everything leading up to the engine’s failure was preventable. “It really boils down to installation-related failures,” Ricketts says. “Had the cam caps been installed right, the engine timed properly, and the balancer honed for proper fitment to the snout, it likely would still be a running engine.”
Ricketts offers some sage advice for the DIYers, saying, “We always recommend verifying all procedures with factory manuals. There is a lot of information out there that can be found online, but the only way to be 100-percent certain is to pony up and buy/rent/borrow the real deal Ford manuals for engine related procedures.”
“In addition to allowing you to follow manufacturers’ instructions for items like the balancer, [the OEM repair manuals] often have critically important notes on how to check and correct clearances. These small steps and costs can literally save thousands of dollars in repairs.”
Also, in cases such as Ivan’s, it pays to make sure you use a shop who knows what they are doing. Oftentimes shops can talk a big game, but as he found out, not everyone can walk the walk. Thankfully, we have companies like Livernois who can not only talk and walk, but chew bubblegum as well.
With the teardown complete, now comes the fun part – rebuilding the engine into a badass piece of engineering which is capable of four-digit horsepower levels with a Whipple 2.9-liter supercharger, while cruising to and from the racetrack and busting off low-nine-second passes. Stay tuned as we move forward with machining and assembling the short-block of Project: Boosted Coyote next month.