Drag Racing Crankshafts Huntington WV

Looking for Drag Racing Crankshafts in Huntington? We have compiled a list of businesses and services around Huntington that should help you with your search. We hope this page helps you find Drag Racing Crankshafts in Huntington.

Geer Brothers Body Shop
(304) 525-0778, 001-2004
416 Fourth Avenue
Huntingdon, WV
Certifications
Blue Seal Certified
Membership Organizations
National Institute for Automotive Service Excellence (ASE)

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Turleys Transmission Service
(304) 525-6982
Huntington, WV
 
Goodyear Auto Service Centers
(304) 523-0137
4 Avenue & 12 St
Huntington, WV
Services
Car Washes, Car Detailing, Tire Shops

River City Tires Inc
(304) 525-4500
145 3rd Ave W
Huntington, WV
Services
Car Washes, Car Detailing, Tire Shops

Auto Zone
(304) 522-0326
801 Hal Greer Blvd
Huntington, WV
Services
Auto Parts

Quality Services
(304) 523-4723
701 6th Avenue
Huntington, WV
Services
Alignment Repair,Electrical Repair,Mufflers Repair

Cottman Transmission Center
(304) 523-8770
1537 7th Avenue
Huntington, WV
 
A & A Transmission Service
(866) 562-2838
301 4th Av
Huntington, WV
 
T & T Transmission Service
(304) 523-0880
3576 16th Street Road
Huntington, WV
 
Napa Auto Parts
(304) 523-6409
2512 5th Ave
Huntington, WV
Services
Auto Parts, Car Washes, Car Detailing

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Drag Racing Crankshafts

The differences between a stock shaft and a racing piece are many

With photos and words by Steve Temple As any experienced engine builder already knows, a drag race engine is made up of hundreds of precision parts bolted together to form an assembly that spins at a furious rate in order to propel its vehicle to victory. Meeting this challenge requires that all those parts going into this assembly be just right. Because the entire engine assembly is such a large and diverse topic we won't be so pretentious as to try to cover it in its entirety, so we'll focus on the heart of the matter, the crankshaft. Not just any common crankshaft, but more specifically shafts used in the sport of drag racing when the capacities of the stock shaft are far exceeded.

By simple definition the object in question is a shaft with U-shaped cranks. Its sole purpose is to convert the up-and-down motion of the pistons into a rotary motion that will eventually turn the rear wheels.

The differences between a stock shaft and a racing piece are many. These provide a multitude of benefits that make a specialty shaft highly desirable: it's stronger, more precisely machined, has greatly improved oil control and is available in a limitless variety of configurations. It will also lessen the likelihood of taking a perfectly good assembly made up of expensive performance parts and turning them into a 9,000rpm hand grenade.

Before we get into specifics of crankshaft technology, it's important for engine builders to identify what the customer's expectations are. The engine builder should consider how long the end user intends to keep a car with the engine intact.

For instance, some people jockey a dragster in different classes, while other people may stay in a particular class for a long time. Someone else may have the goal in mind to start out in a Pro category and then go to Super Pro, and then maybe from there they want to go to a Quick 16 if you're talking bracket racing categories.

One of the biggest problems you can run into is a customer making a decision based solely on dollars. The problem is, what's the cost per year, or per lap to go out and run these things? An engine builder can get caught in this price trap, unless he can convince the customer to spend a little more money up front so that in the long run the cost of ownership isn't so great.

So what makes a good racing crankshaft? First on our list is the type of metal used. In the case of high-end racing crankshafts the choice is typically between forged steel or billet steel. The grade of that material will differ by manufacturer to best suit the needs of their specific design. As with all selections you will find supporters from both sides and in equal numbers, but there are a couple of points that we all can agree on.

Because a racing crank must survive extreme torsional loads as well as bending and flexing that would bring lesser material to its knees, strength is pa...

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