Tuesday, November 9, 2010

Want to sell : Mountain Bike - Shimano XTR

Want to sell : Mountain Bike - Shimano XTR

Monday, November 8, 2010

How to Change Brake Disc

Here is Disc Brake Components :

Disc brake components



Here is the location of the disc brakes in a car :

Disc brake location

The main components of a disc brake are:
* The brake pads
* The caliper, which contains a piston
* The rotor, which is mounted to the hub



Here How a Disc Brake Works :


Parts of a disc brake

The disc brake is a lot like the brakes on a bicycle. Bicycle brakes have a caliper, which squeezes the brake pads against the wheel. In a disc brake, the brake pads squeeze the rotor instead of the wheel, and the force is transmitted hydraulically instead of through a cable. Friction between the pads and the disc slows the disc down.

A moving car has a certain amount of kinetic energy, and the brakes have to remove this energy from the car in order to stop it. How do the brakes do this? Each time you stop your car, your brakes convert the kinetic energy to heat generated by the friction between the pads and the disc. Most car disc brakes are vented.


This is a picture of a disc brake

 

Vented disc brakes have a set of vanes, between the two sides of the disc, that pumps air through the disc to provide cooling.




How Disc Brake Work


Changing the disc brakes

How To Replace Brake Lines and Hoses

Brake failure is a serious problem that can cause a vehicle to go out of control and damage people, animals and property. To avoid brake failure, requires brake liners to meet several guidelines.

Failing to meet these requirements will cause a vehicle to fail inspection. Guidelines may vary from state to state, so you should check with your own DMV to see the specific regulations in your area.



Width Requirements
According to DMV regulations, brake lining should measure at least 1/16 of an inch on bonded linings and 1/32 of an inch on riveted linings. No lining should be absent anywhere on the brake.

Condition Requirements
To pass motor vehicle inspections, brake lining must be securely fastened, and can't be broken or loose. With bonded linings, circumferential cracks are acceptable as long as the lining is still secure.

Cleanliness Requirements
Vehicles may fail inspection if brake liners are heavily soiled with foreign material, such as grease, which could impede the functionality of the brakes.

How to Inspect And Change Brake Pads

Let's quickly review how to change and inspect brake pads.

1) Checking the Rotor, Caliper & Wear Indicator for Brake Pads


2) How to Change Brake Pads


Most modern cars have disc brakes on all four wheels, though some cars still have drum brakes in the back and disc brakes up front.

On a disc-brake-equipped vehicle, a set of heat-resistant pads grip the spinning brake rotor when you push the brake pedal, using friction to slow the wheel down and ultimately bring the car to a stop.

(For a more detailed description, see How Disc Brakes Work.)

Over time, those pads get worn out, reducing their ability to slow the car down. That's why it's important to change brake pads whenever it becomes necessary; however, you don't always have to go to a mechanic for the purpose of fixing brakes.

While brake repair is often something best left to the pros, this particular type of brake work is something you can do in your own garage.

In this article, we'll discuss how to change brake pads -- a rather simple do-it-yourself project that can save you a trip to the repair shop.

How to Diagnose a Brake Problem

If  braking problems noticed, the first thing that should do is bring the carto a capable mechanic. Although many things can cause brake problems and brake failure, identify some of the possible causes yourself. 

 

 

Instructions
  1. Step 1
    Check the brake fluid if the brake light is on.


  2. Step 2
    Understand that a high-pitched scraping or squealing noise that goes away when you step on the brake tells you that the brake pads are worn - but only with brake pads that have wear sensors attached.

  3. Step 3
    Note that a grinding, metal-against-metal sound when braking indicates that it's too late: Your brake pads or shoes are completely worn away, and you are now ruining the rotors or drums. You should have gotten the brakes checked earlier!

  4. Step 4
    Feel the brake pedal. If it is soft or mushy or gets harder and higher when you pump it, you might need to bleed the brakes (which gets air bubbles out of the brake lines).

  5. Step 5
    Note that if the brake pedal slowly sinks to the floor when you step on it (or intermittently), you might be in need of a new brake master cylinder.

  6. Step 6
    Drive the car at low speed, braking as needed. If the brakes squeal, you might need new brake pads, or the brake rotors might need to be resurfaced or machined.

  7. Step 7
    Understand that if the car pulls to one side when braking, you might have insufficient hydraulic pressure in one part of the brake system, or one brake might be sticking. Front-end problems can also cause this symptom.

  8. Step 8
    Consider your rotors if you feel a pulsation when stepping on the brake pedal, particularly when braking at higher speeds. This symptom may indicate warped brake rotors. The rotors will need to be either machined or replaced.

  9. Step 9
    Remember that smoking brakes, usually accompanied by a very bad smell, indicate a stuck brake caliper or wheel cylinder. This symptom may also be caused by driving with the hand brake on or by a stuck hand-brake cable.

A Simple Brake System

Before we get into all the parts of an actual car brake system, let's look at a simplified system:





You can see that the distance from the pedal to the pivot is four times the distance from the cylinder to the pivot, so the force at the pedal will be increased by a factor of four before it is transmitted to the cylinder.

You can also see that the diameter of the brake cylinder is three times the diameter of the pedal cylinder. This further multiplies the force by nine. All together, this system increases the force of your foot by a factor of 36. If you put 10 pounds of force on the pedal, 360 pounds (162 kg) will be generated at the wheel squeezing the brake pads.

There are a couple of problems with this simple system. What if we have a leak? If it is a slow leak, eventually there will not be enough fluid left to fill the brake cylinder, and the brakes will not function. If it is a major leak, then the first time you apply the brakes all of the fluid will squirt out the leak and you will have complete brake failure.

The master cylinder on modern cars is designed to deal with these potential failures. Be sure to check out the article on How Master Cylinders and Combination Valves Work, and the rest of the articles in the brake series (see the links on the next page), to learn more.

Friction

Friction is a measure of how hard it is to slide one object over another. Take a look at the figure below. Both of the blocks are made from the same material, but one is heavier. I think we all know which one will be harder for the bulldozer to push. 


To understand why this is, let's take a close look at one of the blocks and the table:  

Even though the blocks look smooth to the naked eye, they are actually quite rough at the microscopic level. When you set the block down on the table, the little peaks and valleys get squished together, and some of them may actually weld together. The weight of the heavier block causes it to squish together more, so it is even harder to slide. 

Different materials have different microscopic structures; for instance, it is harder to slide rubber against rubber than it is to slide steel against steel. The type of material determines the coefficient of friction, the ratio of the force required to slide the block to the block's weight. 

If the coefficient were 1.0 in our example, then it would take 100 pounds of force to slide the 100-pound (45 kg) block, or 400 pounds (180 kg) of force to slide the 400-pound block. If the coefficient were 0.1, then it would take 10 pounds of force to slide to the 100-pound block or 40 pounds of force to slide the 400-pound block. 

So the amount of force it takes to move a given block is proportional to that block's weight. The more weight, the more force required. This concept applies for devices like brakes and clutches, where a pad is pressed against a spinning disc. The more force that presses on the pad, the greater the stopping force. 


Coefficients
 
­­An interesting thing about friction is that it usually takes more force to break an object loose than to keep it sliding. There is a coefficient of static friction, where the two surfaces in contact are not sliding relative to each other. 

If the two surfaces are sliding relative to each other, the amount of force is determined by the coefficient of dynamic friction, which is usually less than the coefficient of static friction. 

For a car tire, the coefficient of dynamic friction is much less than the coefficient of static friction. The car tire provides the greatest traction when the contact patch is not sliding relative to the road. When it is sliding (like during a skid or a burnout), traction is greatly reduced.