It happens to all of us at one point in time. We get into an automobile collision and need the best auto body shop in New Providence. Hopefully, it is not too bad and we are not seriously injured. But usually the car does not fare as well and comes away with significant damage.
What is the next step after your collision and you need an auto body shop?
Likely, after informing the insurance company you take your vehicle to one of their “approved” vendors.
Here is what happens next. You tell the insurance company what company you choose. By this time they have already taken phones of the car and know how extensive the damage is. If you need an expert to take a look, make sure you go to a repair shop in New Providence.
They have a computer system that gives them a printed estimate stating what the replacement parts and labor will be based upon a set hourly rate.
This statement is given to the body shop. It comes with a break down of what the labor and parts “should” be and the company has to usually be able to totally fix the car for that price.
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Keep in mind that what is printed out represents the best case scenario and doesn’t allow for items on the car that was missed or problems that come up.
Now here are some things to watch out for. a local auto body shop in New Providence is operating under very, very thin margins and the incentive to “cut corners” is huge. Getting an extra $300 off a job can really add up over the course of the month when you are talking about doing at least 3-5 vehicles every week.
Body shops say insurance companies are skimping on repairs
Replacement Parts in Auto Body Shops
Make sure the parts being used on your car are OEM parts. These are replacement auto body parts in New Providence are sent directly from the car manufacturers and are designed with the same specs as the vehicle came with.
Aftermarket parts can be significantly cheaper yet are not the same quality and make not hold up the same in the event of another accident.
No Realignment? Talk to Your Auto Repair Team!
The frame is usually somewhat bent when a car goes through an accident of any kind. It needs to be properly realigned. You need a serious all hands on deck auto body shop to take care of you here.
Unfortunately, because the money made off one car can be very little the propensity to skip this step is very high. Later down the road this will cause your car to not drive straight but at a tilt and your tires will wear prematurely. So if you need to brush up on some tire repair, ask your mechanic straight away.
Using Bondo (Fillers) Instead of Replacing the Part
Filling any damage in with bondo is not bad in itself. If you know what the auto body shop in New Providence is doing, they tell you, and this is what you are paying for then it is fine.
The problem comes in when you think you are getting a vehicle back that is 99.9% the same as before it was wrecked and it is not. Filling a damaged part in with filler rather than replacing the expensive part is a common tactic and you want to make sure it is not done on your vehicle.
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All damaged parts should be replaced unless you are paying a lower price for the car to just be fixed (in the case you want the cheapest price and do not care about having a car exactly the same as before). Again, you should really speak to your best auto body shop nearest you!
Keep in mind that most auto body repair shops are honest and are surviving in a tough industry.
What makes auto body shops so difficult to heat during the cold season? To shop owners, the answer is obvious. Auto body shops are characteristically dusty, breezy, high heat-loss environments. To make the indoor air more breathable and safe for workers, fresh air must be introduced through use of exhaust fans and/or raising overhead doors to help dissipate and eliminate contaminants. The problem is, as contaminants are pulled out, so is the heated air. Seemingly a "no win" scenario right?
So what's the most effective and efficient way to heat body shops?
Answer: Infrared radiant tube heaters.
To help answer that question, let's review what "infrared" is and how it works.
Infrared (IR) is electromagnetic wave energy that travels at the speed of light until it strikes an object. Upon striking an object, the IR energy converts to heat and is either reflected or absorbed. Dark and opaque objects (i.e. asphalt, concrete, etc.) readily absorb radiant IR heat energy, whereas highly reflective objects such as chrome and polished aluminum are poor absorbers and tend to reflect that energy away.
The most familiar IR emitter (heater) is our own sun. The sun radiates its IR energy through our atmosphere to the earth's surface, uninhibited by wind. As the earth's surface absorbs that energy, our air becomes warm.
During our North American winters the sun's rays are less dense due to the angle of the sun in the sky and our air temperatures are much cooler. But by summer solstice the sun's rays are at their peak angle and absorption is at its highest, resulting in warmer air temperatures.
Why use infrared tube heaters for your body shop?
1) Ceiling suspended infrared tube heaters mimic the warmth of the sun by warming up tools, machinery, floors and people directly, thereby warming the air indirectly.
2) Unlike forced air heaters, infrared tube heaters do not blow air throughout the space. That's a big plus in body shops where dust in painting areas is a problem.
3) Quicker heat recovery. As infrared energy absorbs into floors, tools, vehicles, etc., heat is recovered much more quickly when overhead doors are opened and closed again or when exhaust fans are cycled on and off periodically. That's because surfaces in the direct path of the infrared rays become a "heat sink". In other words, stored heat in objects re-radiates to warm the surrounding air.
4) Energy efficiency - an infrared tube heating system can save as much as 50% or more in fuel savings compared to conventional forced air. This is especially true in body shops where air exchanges are very high.
5) Infrared heaters can increase production. A carefully designed infrared tube heating system can be used to decrease drying times and enhance paint job quality. Placing vehicles in the path of infrared radiation warms cold metal surfaces. Paint applied to warm metal surfaces is less likely to run or drip than when applied to cold surfaces. And because infrared heaters don't move air around, there is less opportunity for dust particles to mix with newly applied paint.
We should note that gas infrared tube heaters are NOT to be used inside paint booths or paint mixing rooms. Tube heater emitters can reach 900 to 1100 Degrees F, well above the flash point of solvent-based primers and sprays. Spraying should be contained in a designated paint room with a filter bank and exhaust system to carry away potentially explosive fumes. Once spraying is done and the booth is ventilated with fresh air, vehicles and components can then be moved out of the spray booth to an isolated drying area where the infrared heaters are located.
Are some infrared tube heaters better than others for heating body shops?
That's where you need to do a bit of homework. A thorough review of the various infrared tube heater manufacturers can turn up some surprising differences between brands and product offerings. In your search, ask about burner design (are controls isolated from the air stream? They should be.), emitter tubing (heat-treated aluminized or cheaper hot-rolled steel?), reflector efficiency (50% efficient or 100%), and warranty (10 years is better than 5 years).
How To Straighten Metal On Car Parts
The insurance companies nickel and dime them at every turn and they are made to give them at time ridiculous discounts to get any business. That’s why having an auto body shop in your corner can’t be stressed enough.
Nevertheless, all an auto body shop should be on is your side and corners should not be cut at your expense and being watchful is just a smart way to go.
Your Auto Body Shop In New Providence Should Help You With What Car Needs Exactly?
>> I'm Chad.
I'm a second-year student here at DCTC.
I've been an apprentice at ABRA inBloomington for just about a year, now.
Doing some frame damage,here, repair on a 2005 Ford.
Three door, got hit here,and this here was the main impact.
We've already cut the reinforcementand impact bar off.
Now, we're going to be pulling onthis frame here, to get it straight, using the three-dimensionalmeasurement system to make sure that everything else is inline where it should be.
>> I'm Gerry Rainford.
I'm a second-year instructor here,at Dakota County Technical College.
Chad's a typical second-year student, wherewe get into different levels of repair needs, from just simple door repair to, well, you cansee here, is a full unibody reconstruction.
Mechanical aspects, as well.
Getting into the air conditioning andother mechanical systems on the vehicle.
This is kind of the way that once we havethe vehicle anchored on our frame rack.
We come through and we can actually do pull out.
We're going to be doing a light pull,this morning on the unibody structure.
We're going to see if we can't repair the rails.
Typically, when they're kinked to thispoint, we would do a replacement procedure.
But we're going to see ifwe can't repair them, today.
So, we'll just kind of talk as we go through it.
And we'll see if we can getthe rails to come out.
So, Chad, please take over from here.
>> All right.
I'm going to be using these towers, here, thatare capable of pulling 10,000 pounds apiece.
Try to get this mash come outon this left frame rail, here.
>> So, once again.
We're going to be pulling at a constantlevel that's going to be straight out, to try to replace the height, thelength, and width of the rail.
So, we're going to keep the directionstraight and at a straight pulling distance.
>> And all I'm doing here, now, is justwatching as I'm pulling, going slowly to find out how the metal's going to react.
Everything reacts different,not any accident is the same.
Everything needs to be takenon with a different viewpoint.
What I'm going to do now, isjust hit this metal, here, to try to relieve some of this stress.
[ Hammering Sound ] And always while you're pulling,what you're going to want to do is check your anchoring points, again, tomake sure that the car is not going anywhere.
Make sure all your chainsand clamps are still tight.
As you'll notice, I'm staying above,not standing behind these chains, just in case anything would happen to let go.
[ Hammering Sound ] >> Let's work the backside of the railthrough here a little bit, as well.
[ Hammering Sound ] [inaudible] target.
One of the things we don't want to do, is we don't want to do additionaldamage as we're pulling.
Looks like we're pulling morefrom the bottom of the rail.
>> Than we are from the top.
So, at this point in time, I think we shouldstop, rehook, and grab a hold of the top of the clamp support and pullmore on the top of this rail.
>> All right.
Both these dozers here are run by the same pump.
So, as I pull it's going to pull them equally.
Let's get some pressure on there.
[ Inaudible Comments ] [ Hammering Sound ] >> Just trying to relieve this stress.
Move the metal where I want it.
>> So, let's get a couple ofhits with this on the backside.
[ Hammering Sound ] Right now, we're concernedwith overpulling on it.
And so, I think we're going to stop.
And we're going to regrab ontothe rail at a different location.
Once you've overpulled and it distortsthe rail, then we've got an issue.
>> We're going to cut this outsideof this rail, here off, this cap.
Just a piece of the sheet seal,here, out of high strength steel.
We're going to pull this out here, sothat way we can get inside here, too, and make proper welds and getthis metal straight, again.
I'm just going to be countered along,drill out these spot welds, here.
And then, cut it here at the seam.
I'll run a line, section it out.
>> Why don't you show them how we know how farwe need to pull by using the measuring system? Then, to explain the measuringsystem, real quick? >> All right.
As we pull out on this stuff here, toget this rail out to where it should be, these targets here measure with this beamunderneath the vehicle, measures the vehicle at all kinds of different points.
Four in the middle of the vehicle, twoat the rear of the vehicle, and then, these here in the front closest to the damage.
This vehicle, this chart here for thevehicle is specific for this vehicle.
What this does here, is it hangs targets fromthe vehicle at specific manufacturing locations.
It measures the vehicle throughout there.
You can tell that our centersection here, is good.
And the back of the vehicle is good.
But up here, we're dealing with offmeasurements on the front end from the impact.
>> We're going to take and when we getthe rails pulled back into a location by the manufacturer's specifications, we'lltake, we'll hammer and dolly all this straight.
And we'll take, we've got new components.
We've got a new reinforcement barthat we'll be welding into place, to replace the structure of the vehicle.
But we'll come through, replace the.
You want to come around over here.
You can see that the radiator condenserhas been damaged in this accident.
And it's completely, we've lost all the Freon.
So, we'll be doing an R and Rprocedure on the condenser assembly.
Then, we're going to evac andrecharge the air conditioning system.
And then, move forward with the restof the mechanical repairs at this time.
In some situations, when you getcomposite intake manifolds, like this, components can come back and dodamage to the intake manifolds, starters, alternators, AC compressors.
We have additional damage deeper in the vehicle.
And this one, we've simplygot a condenser to replace.
What's so, how long will ittake you to do this repair? >> This repair here, will take me probablyabout two weeks to finish, to complete.
Done quite a bit already.
Already had all my parts ordered.
Those have already been checkedin and identified, and made sure that they are the rightparts, so I'm not scrambling at the end of the project to find the correct parts.
I'd say about two weeks; two to three weekswould be a good timeline for this vehicle.
>> Well, thank you, Chad.
I appreciate it, taking your time withthe students and this is what we do here at Dakota County Technical College.
It's a two-year program.
We try to get you ready with the latesttechnology and the latest equipment to make sure that they're ready for the industry.
And so, they can be productive and profitablein today's unibody reconstruction world.
Thanks, very much.