Basic modifications for newbies

'''There are numerous sources of information to assist the untrained individual in the rebuilding or repairing of specific components of a vehicle, but there needs to be a place where he/she can learn what to do and what not to do in the modification of their vehicle(s). This article will attempt to fill in the blank spaces in their understanding concerning these modifications.

'''There are numerous sources of information to assist the untrained individual in the rebuilding or repairing of specific components of a vehicle, but there needs to be a place where he/she can learn what to do and what not to do in the modification of their vehicle(s). This article will attempt to fill in the blank spaces in their understanding concerning these modifications.

The next component to be addressed is the torque converter. It is mandatory that the converter is matched to the camshaft you'll be using. As was stated earlier in this article, stock converters will stall at around 1,200 to 1,400 rpm's, depending on the amount of torque produced by the motor among other things and that's fine when you are using a stock-type cam that begins making power at idle. But when you change the cam out for a longer duration/higher lift model, you're no longer making power from idle and the car will be a dog until the rpm's increase to the point where the motor is making power. One way around this is to install a converter that stalls higher than stock so that the motor comes up on the cam quicker and the car accelerates faster. Any cam you install in the motor will have an operating range of about 3,500 rpm's. In other words, it might make power from idle to around 4,200 rpm's (stock cam) or from 1,500 to 5,000 rpm's or 2,000 to 5,500 or 2,500 to 6,000 or 3,000 to 6,500 or 3,500 to 7,000. I'm sure you get the idea. It works in a certain "window" of operation and is inefficient below and above those rpm's. So, if you install a cam that operates between 3,500 and 7,000 rpm's and use a converter that stalls at 1,200, you can see that the motor will not be producing enough torque from 1,200 to 3,500 to move the car efficiently. The car will be a D-O-G. On the other hand, if you use the 3,500-7,000 cam with a converter that stalls at around 3,500, then when you nail the loud pedal, the motor will rev up close to the stall speed of the converter and you'll be making power and applying torque to the rear tires sooner. (PLEASE NOTE THAT EACH APPLICATION IS DIFFERENT AND THAT A PROFESSIONAL TORQUE CONVERTER MANUFACTURER SHOULD BE CONSULTED FOR THE EXACT CONVERTER FOR YOUR APPLICATION). If I could get a little plug in here, I know Jim Hughes personally and have for many years and I can, without question, recommend Hughes Converters. Jim is a man of integrity, both personally and professionally.

The next component to be addressed is the torque converter. It is mandatory that the converter is matched to the camshaft you'll be using. As was stated earlier in this article, stock converters will stall at around 1,200 to 1,400 rpm's, depending on the amount of torque produced by the motor among other things and that's fine when you are using a stock-type cam that begins making power at idle. But when you change the cam out for a longer duration/higher lift model, you're no longer making power from idle and the car will be a dog until the rpm's increase to the point where the motor is making power. One way around this is to install a converter that stalls higher than stock so that the motor comes up on the cam quicker and the car accelerates faster. Any cam you install in the motor will have an operating range of about 3,500 rpm's. In other words, it might make power from idle to around 4,200 rpm's (stock cam) or from 1,500 to 5,000 rpm's or 2,000 to 5,500 or 2,500 to 6,000 or 3,000 to 6,500 or 3,500 to 7,000. I'm sure you get the idea. It works in a certain "window" of operation and is inefficient below and above those rpm's. So, if you install a cam that operates between 3,500 and 7,000 rpm's and use a converter that stalls at 1,200, you can see that the motor will not be producing enough torque from 1,200 to 3,500 to move the car efficiently. The car will be a D-O-G. On the other hand, if you use the 3,500-7,000 cam with a converter that stalls at around 3,500, then when you nail the loud pedal, the motor will rev up close to the stall speed of the converter and you'll be making power and applying torque to the rear tires sooner. (PLEASE NOTE THAT EACH APPLICATION IS DIFFERENT AND THAT A PROFESSIONAL TORQUE CONVERTER MANUFACTURER SHOULD BE CONSULTED FOR THE EXACT CONVERTER FOR YOUR APPLICATION). If I could get a little plug in here, I know Jim Hughes personally and have for many years and I can, without question, recommend Hughes Converters. Jim is a man of integrity, both personally and professionally.