The Truth Behind Engine “Blueprinting” With EFI University

A common problem within today’s horsepower hunting subculture is that some of the vocabulary being used by the industry no longer accurately reflects the actions behind the word, which has left many enthusiasts confused and misinformed, with one blaring example being engine blueprinting.

If you’re an avid horsepower hobbyist, you’ve more than likely heard the term “engine blueprinting” thrown around on the web, in the shop, or at the track. Now, it’s important to first point out that the term itself has not lost its meaning to newer technology or engine assembly practices, and still has its place in the industry today. But rather the problem seems to stem from how loosely the term is used by professionals and in how we educate the consumer.

Ben Strader, founder of EFI University, considers this a real weakness of our community, and has made it a central part of his business model to properly educate his students (who are both consumers and professionals) on the importance of the accuracy in their words.

The Definition Matters

When an automotive professional (whether a mechanic, tuner, writer or even tech support) does not put an emphasis on the accuracy of their words, the customer is being done a disservice. And in the case of performance shops advertising “engine blueprinting services to your average enthusiast, at some point it will more than likely lead to miscommunication and disappointment from the owner of the vehicle, the shop, or both.

“In my opinion, the vocabulary being used by professionals and the education of the consumer is what we need to change as an industry. Not to say anything negative about the abilities of the performance shops that advertise this service, but sticking to its literal definition, using the term blueprinting in relation to a race or high performance engine build is a dramatic step in the wrong direction — in my opinion,” states Strader. “To blueprint an engine means to prepare, specify and document all of the engine’s tolerances, clearances, and materials based on a set standard. And the problem lies in the fact that currently the only standard you will find available to the public is the OE engine specifications out of the factory service manual.”

Of course at the elite level of racing, such as Formula 1, Nascar and IndyCar; a team will have multiple engines “blueprinted,” and each mill built will share exactly the same specifications as the others from top to bottom and cylinder to cylinder — an exact clone if you will.  The difference is that this data is proprietary, and the teams safeguard this information as seriously as the Secret Service protects the U.S. President’s nuclear football.

“The problem with these public set of standards is that an OEM engine is designed to operate under a completely different set of operating conditions than a race engine. Rarely is the OEM’s number one goal to design an engine for maximum power,” says Strader. “A factory engine is more likely designed for extended periods at cruising engine speeds, frequent early morning cold starts, maximum fuel efficiency, reliability and low noise. So, this means that the clearances, tolerances, and the specific materials used in the components of those engines are not well suited for competition and racing applications.”

“Think about it like this, your typical OEM piston is made from a hypereutectic material or a cast aluminum alloy; and racing pistons are generally made from a forged or billet design. So this means that the thermal behavior of these alloys are going to be dramatically different,” states Strader. “For example, if you tried to take a forged piston and run it using the same clearances as an OEM cast design, you would stick the piston the first time you tried to run the engine because the forged material swells and expands much more as it heats up.”

“Due to these kind of issues, I find it silly that anyone would ‘blueprint’ a performance engine to the exact factory specifications. I think what we really need to do, as an industry, is redefine our understanding of what it means to ‘blueprint’ an engine,” explains Strader. “We need to help the consumer understand that what ‘engine blueprinting’ really describes [in the performance aftermarket] is the goal of preparing an engine to a certain specification, and not necessarily to factory spec. But, what I feel is even more important for a competition engine is then understanding where that specification is coming from, and how they came up with those values.”

Competition Engine Development

It’s important to focus on the techniques, thought process and effort that goes into the ‘development’ of a competition engine. And there’s a lot more to the process than just checking all of the clearances and making sure they’re at a particular spec, -Ben Strader

“This is one of the many reasons why we launched our Competition Engine ‘Development’ program,” says Strader. “It’s important to not only focus on assembly, but specifically on the techniques, thought process and effort that goes into the ‘development’ of a competition engine. And there’s a lot more to the process than just checking all of the clearances and making sure they’re at a particular specification.”

“To ‘develop’ an engine means that we are going to evaluate the effectiveness [efficiency] of the engine in three different categories — Volumetric EfficiencyThermal Efficiency, and Mechanical Efficiency,” explains Strader. “In a nutshell, we’re trying to cram as much air and fuel into the engine as possible, then convert as much of that fuel and air into useable energy as we can — while also trying to give away as little of that energy to the valvetrain and rotating assembly.”

Volumetric Efficiency (VE) is a measurement of the actual airflow through the engine, starting at the air cleaner and ending at the tailpipe. And to increase the VE of an engine involves camshaft profile design, cylinder head porting, intake manifold improvements, and really anything that would increase airflow through the engine falls into this category.

Your average engine harnesses less than 30-percent of the energy produced during the combustion process, and Thermal Efficiency relates to any modification that would extract more of that energy out of the fuel within our engine. This can include things like raising the compression ratio; running a certain type of fuel; determining the specific volume and path that the coolant takes through the engine; and sometimes even as a byproduct of our efforts to improve VE.

Lastly, to improve the Mechanical Efficiency of an engine means to reduce the friction and drag that leads to parasitic power losses. This is done through lubrication system design, engine oil formulations, piston ring packages, and the specific materials used in each component.

“Once you break down the process into those three categories, it becomes much more obvious that an engine is actually a long series of dependent events; and you can’t modify one aspect of an engine without also altering something else,” explains Stader. “If we switched up our piston material from a standard hypereutectic OEM-style alloy to a 2618 billet, that’s going to require an entirely different cylinder wall finish because that billet piston would also utilize a different piston to wall clearance and ring package.”

Engine blueprinting is just showing you how to assemble an engine, but that’s not the real challenge. EFI-U’s CED course revolves around the concept of ‘development,’ and knowing how to make changes and properly evaluate them — regardless of whether good or bad — and be able to continue progressing and moving forward with the development process of a competition engine.

The reduced peak height (Rpk), core roughness (Rk), and reduced valley depth (Rvk) of a cylinder wall’s surface characteristics. A profilometer is used to acquire these measurements, which greatly affects piston ring seal.

 

Article Sources

About the author

Kyle Kitchen

Born and raised in Southern California, Kyle has been a gearhead ever since seeing his first Mitsubishi Evo VIII in 2003. He is almost entirely self taught mechanically, and as an inexperienced enthusiast always worked on his own vehicles, regardless of the difficulty, just to learn how to do it himself. Prior to becoming a freelance writer for the company, Kyle started his automotive performance career with Power Automedia as a shop technician, where he gleaned intimate knowledge of LS platforms and drag racing builds; then later joining the editorial team as the Staff Writer for EngineLabs And Turnology. Today, Kyle is an experienced EFI calibrator; hot rod builder; and motorsports technician living in the San Jose area. Kyle is a track junkie with lots of seat time. You can usually find him racing his Mitsubishi Evo X in local time attack and road race events.
Read My Articles

Blue Oval Muscle in your inbox.

Build your own custom newsletter with the content you love from FordMuscle, directly to your inbox, absolutely FREE!

Free WordPress Themes
FordMuscle NEWSLETTER - SIGN UP FREE!

We will safeguard your e-mail and only send content you request.

Ford Muscle - The Ultimate Ford Mustang Magazine

FordMuscle

We'll send you the most interesting FordMuscle articles, news, car features, and videos every week.

Ford Muscle - The Ultimate Ford Mustang Magazine

FordMuscle NEWSLETTER - SIGN UP FREE!

We will safeguard your e-mail and only send content you request.

Ford Muscle - The Ultimate Ford Mustang Magazine

Ford Muscle

Thank you for your subscription.

Subscribe to more FREE Online Magazines!

We think you might like...


Muscle Car & Hot Rods
Muscle Car & Hot Rods
Drag Racing
Drag Racing

Ford Muscle - The Ultimate Ford Mustang Magazine

Thank you for your subscription.

Subscribe to more FREE Online Magazines!

We think you might like...

  • Muscle Car & Hot Rods Muscle Car & Hot Rods
  • Drag Racing Drag Racing

Ford Muscle - The Ultimate Ford Mustang Magazine

Ford Muscle

Thank you for your subscription.

Thank you for your subscription.

Ford Muscle - The Ultimate Ford Mustang Magazine

Thank you for your subscription.

Thank you for your subscription.

Loading