Cambridge Street Auto Service is Allston's Brake Shop for High-Performance Vehicles
Come to Cambridge Street Auto Service in Allston to get high-performance brakes that stop with authority every time regardless of road conditions. We have organic, ceramic, and metallic replacement brake pads with applications ranging from daily driving to track racing to off-roading. Talk with the expert mechanics at Cambridge Street Auto Service to determine which type of brake pad is best for your driving style and application. Upgrade to high-performance rotors, calipers, master cylinders, and brake fluids the next time you have your brakes serviced at Cambridge Street Auto Service in Allston.
Talk To Cambridge Street Auto Service About High-Performance Brake Service Upgrades:
Get a master cylinder on steroids by adding a brake booster installed by the expert mechanics at Cambridge Street Auto Service. Reduce the amount of pedal pressure needed for braking with higher hydraulic pressure and lower force applied on the brake pedal.
Drum to Disc Conversion
You love your classic car but let's face it, those old drums make stopping hazardous. For restoration enthusiasts, the mechanics at Cambridge Street Auto Service specialize in 15-inch wheel drum to disc conversion that maintains the original manufacturer aesthetics. Get a complete brake system that includes 11-inch drilled and slotted rotors, single-piston cast calipers, stock or drop spindles, and a master cylinder with brake booster when you do your drum to disc conversion at Cambridge Street Auto Service.
Love a good smokey burnout? Let your rear wheels spin aggressively without wasting your rear brake pads. Get your line lock installed by the auto repair experts at Cambridge Street Auto Service in Allston. Allow your front brakes to lock independently of the rear brakes with just the flip of a simple switch.
Metal Brake Pads
Performance-driven drivers prefer the metallic brake pads because they tolerate a much wider range of temperatures and track conditions. Metal brake pads are excellent conductors of heat making them able to withstand more heat without debonding while also cooling back down rapidly.