Читать книгу Project Mustang - Larry Lyles - Страница 6

The car I’m about to restore is a 1968 California Special Mustang. This was Ford’s take on the popular Shelby Mustangs of the sixties and as the name implies was manufactured for the California market. As project cars go, this one is in pretty good condition. It has a little rust and a few dents and shows a little wear and tear, but all in all, this car has the makings of a great project.

I’ll offer you a few tips on where to find parts, how to determine what options came with your car, and, most important of all, how to inspect a car to determine its overall condition.

FIND MUSTANG PARTS

Luckily, new replacement parts for Mustangs are plentiful, and prices for these parts are reasonable. Pick up any Mustang parts catalog, and you will see that almost any part ever made for a Mustang can be purchased without breaking the bank. Some of the better Mustang parts suppliers include the Paddock Parts, National Parts Depot, Marti Auto Works, California Mustang, and Aftermarket Automotive Parts Distributing (AAPD). All of these companies offer free catalogs and list parts online; they carry a parts inventory that has to be considered vast, to say the least. Contact information for all of these companies can be found in the appendix at the end of this book. Of course, when the time comes to place an order with any of these great companies, the first question you’ll be asked is, “What do you have?” If you reply, “It’s a coupe, I think, and I’m pretty sure it’s a ’67, or maybe a ’68, and the engine is blue,” you may have enough information to get the oil changed, but it isn’t going to help much when placing a parts order.

DETERMINE WHAT YOU HAVE

The VIN, or Vehicle Identification Number, is the place to start to determine the exact model of your car. The two most important pieces of information identified on the VIN are the year model and engine size. The VIN plate on the ’68 California Special is located on the right side of the dash panel and is best viewed by looking through the wind-shield. The VIN may also be found on the left fender apron, on the left side of the dash, or on the left door, depending upon the year model of Mustang being restored. To find information specific to your year model, try your favorite search engine on the Internet; far more VIN information than I could ever hope to list here is only a click away.

Here is an example of a typical Ford Mustang VIN: 8R01C123456. The letters and numbers of a VIN contain a great deal of information about a car.

• 8: designates this Mustang as a 1968 model

• R: indicates the car was built at the San Jose, California, plant, which helps verify the California Special aspect of this car

• 01: indicates it is a coupe

• C: specifies the engine size to be 289 CID

• 123456: the last six digits indicate the vehicle production number for the particular year

Knowing my car is a 1968 Mustang, as verified by the VIN, is actually a very small part of determining exactly what this Mustang really is. Verifying that this car is a California Special makes the vehicle more valuable than a standard run-of-the-mill Mustang, but how do I know this car wasn’t simply badged as a California Special to improve its resale value?

To compound the problem of correctly identifying this car, the data plate (or patent plate) normally found on the left door is missing. The data plate could have told me a lot more about the car. The car is painted Augusta green and has a black interior, but without that data plate from the door I can’t be certain Augusta green is the correct color for this car.

One phone call to Marti Auto Works set me on the right path. I gave Marti Auto Works the VIN, they did a quick check of their vast Ford reference file, and presto—the car is indeed a California Special, and Augusta green is the correct color.

While I had Marti Auto Works on the phone, I also placed an order for a duplicate data plate to replace the one missing from the left door. On the 1968 Mustang, this metal tag displays the car’s serial number, which can also be found on the right side of the dash, as well as encoded data about the different equipment options that came on the car.

Other tags available from Marti Auto Works include engine tags, axle tags, body buck tags, carburetor tags, and even owner cards for the glove box. Most of these tags are self-explanatory, but what’s a body buck tag? This is a small metal tag found in the engine compartment, usually on the firewall, that contains the manufacturing data for the body as it moves down the assembly line. For example, the buck tag tells the technician if holes need to be punched in the firewall for air conditioning or lets the painter know which paint combination will go on the car. This tag goes on before the car is painted and usually ends up bent and wrinkled as the different technicians handle the tag.

TIME FOR AN IN-DEPTH INSPECTION

Now that I’m armed with enough good information to let me know this car is indeed a rare pony, I can get to the task of determining the overall condition of the car. This is also the ugly part of any car inspection, but it has to be done.

This is a forty-year-old vehicle, give or take a few years, and a lot can happen to a vehicle over such a long span of time. For example, has the car ever been wrecked? If so, did the repair shop do a good job making the necessary repairs? Body shop repair methods have changed dramatically over the years. The common solution to repairing major collision damage when this car was new was to hit it with a big hammer. Today, if this car was in an accident and repaired correctly, it might be impossible to tell the car had even been wrecked. This just wasn’t the case thirty to forty years ago.

Initial car inspections are often made from twenty feet away. But at that distance, I can’t tell much about a car. To do that, I need to get up close and personal and inspect the exterior and interior of the car.

INSPECTING THE EXTERIOR

I start with the exterior and walk around the car to look for telltale signs that might give a little dent-and-ding history on this pony. I start at the left front wheel. With the front wheels aimed straight ahead, I measure the distance between the rear of the tire and the leading edge of the fender, as shown in photo 1. In this case, the distance is 3½ inches. I’ll compare this measurement to the right side and look for any difference.

This is a crude driveway measurement, but a very telling one. A difference of less than ½ inch between the two sides is acceptable on an unrestored forty-year-old Mustang, but a greater difference could indicate the car has been in trouble at some point and will need to be closely examined by a competent body shop or front-end alignment professional to determine what, if any, problems exist. The difference between the left and right sides of this Mustang measured less than ¼ inch; an acceptable measurement.

PHOTO 1: A rough measurement of the wheel base is taken by measuring the distance between the rear of the front wheel and the leading edge of the fender. This measurement, which is about 3½ inches, is compared with the right front wheel. A difference of more than ½ inch could indicate a structural problem with the car requiring professional help. Both sides measured almost the same, 3½ inches.

Next, I look at the overall condition of the body, starting with the front structure. With the hood closed, I examine the fit of all the panels. In particular, I want to examine the way the hood aligns with both fenders. Notice that I’ve already marked many of the problem areas where the gaps are too narrow with a colored water pencil. A water pencil is a marker that uses water-based color instead of a permanent ink or dye. It washes off easily and won’t harm the finish. Unfortunately, this poor fit was common in its day and is acceptable in some circles even today.

The real test is demonstrated in photo 3. The rear edge of the hood should be parallel to the cowl with no deviation whatsoever. On this car, the right rear corner is tight against the cowl panel, whereas the left rear corner has a wide gap. This indicates that at some point someone made adjustments to the fit of the hood to get it to open and close without binding. This could indicate structural damage to the front of the car, so that’s where I need to look next.

I start by opening the hood to look for obvious signs of structural damage. This usually is found in the form of hammer tracks, slotted fender mounting holes, or damage to the fender aprons or core support that has not been repaired. In the hood, I find evidence that someone had hammered and banged around on the right apron (highlighted by the colored water pencil).

Aside from the hood not fitting and the hammer tracks on the fender apron, another sure sign this car had been in trouble in the past is the left fender marked Taiwan. Ford made its own fenders in 1968, and its factory wasn’t in Taiwan.

Because of all of the above-mentioned problems, I’ll need to take some structural measurements before making the car undrivable. Why? If the engine compartment cross measurements I take are not equal, the car may need to visit a body shop to receive some structural alignment repairs, and I’d rather not have to push it. But that’s for later. For now, I continue my inspection.

The fit of the left door is terrible. This is far worse than what would be expected from a factory fit or even from many years of wear and tear on the door. It doesn’t follow the contour of the quarter at the top and sticks out more than an inch at the bottom. Ideally, I’d like to see this door sitting flush with the quarter panel and exhibiting no more than a ¼-inch gap between the two panels. But even the factory wasn’t that precise. Ford liked to see the panels flush but would tolerate up to a ½-inch gap between the two panels.

PHOTO 2: A visual check of the hood to fender alignment is made. The damaged areas are marked, as are the areas where the fit between the three panels is not acceptable.

PHOTO 3: This gap is critical. Here the left hood to cowl gap is wide, and the right gap is narrow, indicating that the hood as been shifted at some point. This could mean the car has been in a crash and needs to be examined by a competent body repair professional.

PHOTO 4: Another sign this car has been wrecked. Hammer tracks were found along the top of the right fender apron.

PHOTO 5: The fit of this door is far worse than would be expected from forty years of wear and tear.

PHOTO 6: Inside the door, I found the cause of the problem. The outer skin has been replaced, as evidenced by the poor welding job. Also notice that the data plate is missing. Marti Auto Works will make us a new one.

PHOTO 7: This large circular break in the fiberglass deck lid will require some attention later on.

PHOTO 8: Where does the jack instruction decal belong? This photo will tell the tale.

PHOTO 9: A quick way to measure the square condition of an engine compartment is to measure from the rearmost fender mount bolt to the forwardmost fender mount bolt on the opposite side, then repeat this measurement from the opposite side. This Mustang is square to within ¼ inch.

PHOTO 10: Problems, problems. This marker lamp isn’t falling off the fender. The mounting hole was stamped wrong, and this was some body man’s idea of a good fit.

There are more telltale signs of this door having been in trouble before. At some point in this car’s life, the outer panel on the left door had been replaced. This is seen in the poor welding job along the edges of the panel and confirmed by the poor fit of the door.

Moving to the back of the car, I need to inspect the fiberglass deck lid, where I find cracked paint. How do I know the panel is made of fiberglass? The edges are thick and appear molded, not rolled as they would be if the outer skin were made of steel. Also, as evidenced in photo 7, damage to steel doesn’t result in a large ring of cracked paint such as the one found here. Steel bends and dents; fiberglass panels crack in this circular pattern when they’ve been in an impact.

Inside the deck lid are the jacking instructions. A picture is better than all the guesswork in the world when it comes to deciding where to place the new instructional decals once the car has been refinished.

So far, I haven’t found any problem with the car that can’t be overcome. But then, I haven’t finished the inspection of the front unibody structure. Remember the poor-fitting hood? I need to take a closer look at this problem.

Most vehicles have symmetrical engine compartments. This makes taking alignment measurements very easy. I’ve stretched a tape measure across the engine bay from the right rear corner of the fender apron to the front left corner of the core support and noted the measurement. In this case, it’s 56¼ inches. This same measurement is taken from the left rear to the right front; in this case, the measurement is 56 inches. When compared with the first measurement, I have a difference of ¼ inch. Dividing that number in half tells me the front structure of this car is inch out of square. Not much, considering how far the hood sits out of alignment.

Remember the Taiwan fender found on the initial inspection of the car? I already know it fits like a ’53 Cadillac fender on a ’99 Toyota; this poor fit is more than likely the cause of the hood on the Mustang not fitting properly. However, being reasonably sure the front structure is in good alignment, I’m going to forgo aligning the hood until I have all the chrome, glass, moldings, and other hardware removed from the car. I’ll start that in chapter 2. Also, check out photo 10. No, this marker lamp isn’t about to fall out of the hole. The mounting hole was actually stamped that crooked. This fender has other alignment issues that will require some heavy-duty realignment procedures, but that’s for chapter 4.

PHOTO 11: It’s a little difficult to tell what portion of the car this photo shows, but this is the floor pan under the rear seat, a common area to find rust on early model Mustangs. The arrow points to a series of rust holes.

PHOTO 12: The radio surround trim panel will need rebuilding. We’ll send it to Just Dashes for a professional restoration.

INSPECTING THE INTERIOR

Inside the car, I find the typical Mustang problem of rust in the floor pan. The rust is slightly more extensive than most in that it has migrated under the rear seat. However, the rust isn’t bad enough to create any major problems. Aftermarket floor pans are readily available for this vehicle, and installing them won’t be that difficult.

The interior components are in very good condition considering the age of the car, but problems do stick out, and the padded radio surround will require some extensive repair.

Now that I have completed a walk around the car and have determined its overall condition, the next step is to mark all the problem areas found on the body. Every dent, misaligned panel, rust hole, crack, and broken part needs to be marked with a colored water pencil.