(715) 568-5381
1012 Martin Rd | Bloomer, WI 54724
[GEOTITLE]
[GEOADDRESSONE]
[GEOADDRESSTWO]
[GEOPHONE]
Directions
Store Hours
[GEOHOURSMONDAY]
[GEOHOURSTUESDAY]
[GEOHOURSWEDNSDAY]
[GEOHOURSTHURSDAY]
[GEOHOURSFRIDAY]
[GEOHOURSSATURDAY]
[GEOHOURSSUNDAY]
Change Location
Current Location
[GEOTITLE]
[GEOADDRESSONE]
[GEOADDRESSTWO]
[GEOPHONE]
|
Directions
Store Hours
[GEOHOURSMONDAY]
[GEOHOURSTUESDAY]
[GEOHOURSWEDNSDAY]
[GEOHOURSTHURSDAY]
[GEOHOURSFRIDAY]
[GEOHOURSSATURDAY]
[GEOHOURSSUNDAY]
Change Location
Go
Use current location
Home
Tires
Car, Truck & SUV Tires
Tire Care Tips
Wheels
Collision
Services
Schedule a Repair
Car Care Tips
Sno-way Spreaders
Sno-Way Plows
Winter Ready
Coupons
Financing
About
News
Reviews
Our Staff
Employment
Testimonials
Surveys
Find Us
Contact
News
24
How Do My Brakes Work?
posted on
4/24/2019 10:02:29 AM
It’s a sunny day and you’re driving down the road with your windows down and music turned up. All of a sudden, the car in front of you stops abruptly, causing you to slam on your brakes. Thank goodness your brakes worked perfectly, and you avoided a collision. Until this incident occurred you probably haven’t given your brake system much thought. Sure, you know your brakes should be inspected and serviced every once in a while… but how do they actually make your car stop with just a tap of the foot?
When you really stop and think, you realize brakes are a pretty amazing invention. They have the power to bring a large, multi-ton machine traveling at 70 miles per hour to a complete stop with just a push of the pedal. This ability is all thanks to science!
A moving car has a lot of kinetic energy, meaning “energy in motion.” To stop your car, your brakes must eliminate that kinetic energy. When you push your foot to the pedal, a connected lever will be pushed into a small cylinder filled with hydraulic fluid in its reservoir. This causes the hydraulic fluid to travel through a system of lines into other larger cylinders, or calipers, located by the wheel. When fluid enters the caliper, this pushes the caliper to actuate the brake pad against the brake rotor. When the brake pad and brake rotor meet, this generates friction which in turn slows down the outer wheel and tire… bringing your car to a complete stop! Simple, right?
The brakes themselves are one of two types: disc brakes or drum brakes. Drum brakes appear similar to a drum, hence the name. Drum brakes have shoes located inside the drum which are pushed outward when you press your brake pedal. This causes the shoes to rub the inside of the drum and slow the wheel. Disc brakes operate a bit differently. Disc brakes use a metal rotor which spins with the wheel. When you push the pedal, a caliper squeezes the brake pads against the rotor and slows the wheel. This action is very similar to the one you would use to stop a spinning disc by squeezing it between your fingers!
The next time you drive your vehicle, take a moment to appreciate your brake system and the science used to bring your car to a halt with just the tap of a pedal. Take care of your brake system by having it inspected and serviced regularly by an experienced technician to ensure that when you need your car to stop, it will.
Categories:
Auto Repair 101
| View Count: (122) |
Return
Related
Most Common Causes for a Flat Tire
10/11/2018
Basic Tire Maintenance
4/26/2018
Reasons Why Tire Inflation Is So Important
8/14/2017
Questions You Shouldn’t Be Afraid to Ask Your Auto Repair Tech
8/16/2017
Something is Leaking: What Is It?
10/11/2018
How Does Power Steering Work?
6/10/2021
Tires & Wheels
Bridgestone
Firestone
Fuzion
Falken
Services
Batteries
Wheel Alignments
Brake Repair
Tire Rotation
About
Home
Tires
Wheels
Collision
Services
Coupons
About
Find Us
Visit Our Shop
Contact Us
Email:
[email protected]
Phone:
(715) 568-5381
Fax:
Address:
1012 Martin Rd
Bloomer, WI 54724
.
Powered by Net Driven
Login
Day's Tire
1012 Martin Rd,
Bloomer, WI 54724
Phone:
(715) 568-5381
Fax:
54724
45.10588,-91.48574
Uh oh!
Page not found!
Sorry the page you are looking for may have been moved or deleted.
Please click anywhere to
continue browsing our site.