brembo new to range

Brembo – New to range (2023/04/11)

  • P85025 – Brake Pads Front
    • VW Polo 2002 – 2006
  • P85050 – Brake Pads Front
    • Honda Civic 2005 – 2013
    • VW Caravelle 1996 – 2003
  • P85105 – Brake Pads Front
    • Audi A1 2010 – 2015
    • Audi A1 2015 – 2018
    • VW Beetle 2011 – 2019
    • VW Golf 2004 – 2009
    • VW Golf 2005 – 2014
    • VW Jetta 2014 – Onwards
    • VW Polo 2009 – Onwards
  • P85107 – Brake Pads Front
    • VW Caravelle 2003 – 2009
    • VW Caravelle 2009 – 2015
    • VW Transporter 2003 – 2009
    • VW Transporter 2009 – 2015
  • P85119 – Brake Pads Rear
    • Audi A6 2010 – 2015
    • Audi A6 2014 – 2018
    • Audi A7 2010 – 2015
    • Audi A7 2016 – 2018
    • Porsche Macan 2014 – 2018
    • Porsche Macan 2018 – Onwards
  • P85140 – Brake Pads Rear
    • Audi A1 2018 – Onwards
    • Audi Q3 2011 – 2015
    • Audi Q3 2015 – 2018
    • VW Polo 2017 – 2021
  • P85145 – Brake Pads Front
    • Audi A6 2010 – 2015
    • Audi A6 2014 – 2018
    • Audi A7 2010 – 2015
    • Audi A7 2016 – 2018
    • Audi Q5 2008 – 2013
    • Audi Q5 2012 – 2017
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brembo new to range

Brembo – New to range (2023/04/3)

  • P85149 – Brake Pads Front
    • VW Toureg 2003 – 2010
  • P85167 – Brake Pads Front
    • Audi A1 2018 – Onwards
    • VW Polo 2017 – Onwards
    • VW T-Cross 2018 – Onwards
  • P85169 – Brake Pads Front / Rear
    • VW Crafter 2016 – Onwards
  • P85172 – Brake Pads Rear
    • VW Amarok 2009 – Onwards
    • VW Crafter 2016 – Onwards
  • P85178 – Brake Pads Rear
    • VW Crafter 2016 – Onwards
  • P85179 – Brake Pads Front
    • VW Crafter 2016 – Onwards
  • P85181 – Brake Pads Front
    • Audi Q5 2016 – Onwards
  • P85184 – Brake Pads Rear
    • Audi A3 2020 – Onward
    • VW Golf 2020 – Onwards
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Friction and Regenerative Car Brakes

What’s the Difference Between Friction and Regenerative Car Brakes?

WHAT’S THE DIFFERENCE BETWEEN FRICTION AND REGENERATIVE CAR BRAKES?

Friction and Regenerative Car Brakes: Let’s take a closer look at conventional friction car brakes and how electric vehicles regain energy with regenerative brakes.

Conventional car brakes serve only one purpose—stopping the car. They are such an essential part of the car, yet hold a greater potential in energy efficiency, particularly in terms of regenerative braking.

Regenerative braking is not a new invention, as hybrid and electric cars currently use it to help recapture lost energy. The idea is simple: Recollect some energy lost in braking and convert it into electric energy for the large, high capacity battery. The creation of energy when braking is where regenerative brakes differ from conventional brakes.

Read the full article with pictures.

Automotive Disc Brake Market 2016 to grow

AUTOMOTIVE DISC BRAKE MARKET 2016 TO GROW AT A CAGR OF 6.67% DURING THE PERIOD TO 2020

A brake system is a component that is used to reduce the speed of a vehicle. A disc brake is used to slow down or stop the rotation of a wheel using brake pads, brake callipers, and brake discs. Drum brakes use brake shoes to create friction and slow down or stop a vehicle, and disc brakes use brake pads for the same. Disc brakes are usually made of materials such as cast iron, reinforced carbon, and ceramic composites.

About the Report:

Safety concerns among motorcycle owners are increasing and manufacturers are seizing on this to differentiate their product. Motorcycles with disc brakes allow a rider to enjoy a safer ride than those with drum brakes, and more and more high-end motorcycles are coming equipped with disc brakes on both wheels.

“Disc brakes provide a shorter, more controlled stopping distance in critical conditions such as on wet or slippery roads, which has increased their demand in motorcycles,”.

Read the full report.

Disc brake upgrade in your driveway

DISC BRAKE UPGRADE IN YOUR DRIVEWAY

Working on your 4x4s brake system can be daunting to anyone who hasn’t worked on brakes before. You don’t want to compromise your rig’s critical ability to stop. We’ve all had that exciting dream where you’re driving without brakes. The truth is the system is straightforward and working on it is easy once you get over the psychological holdup. You push the pedal, brake fluid is compressed in the master cylinder, and fluid moves to the calipers via brake lines and hoses or wheel cylinders, slowing the drums or disc brakes.

Brake parts wear out over time—it’s inevitable. Maintenance involves making adjustments and replacing parts. Our 1998 Dodge 2500 4×4 sees heavy use as a tow rig, parts runner, and occasional trail rig, and the front brakes were beginning to wear thin. Sure, we could have driven the truck down to our local Brakes ‘R’ Us repair shop, but we like doing things ourselves, saving cash, and making modifications.

To get the “whoa” back in our 4×4, we called up our friends at EBC Brakes, which sent us a set of its all-new rotors and performance brake pads for a simple DIY driveway brake install and upgrade that should be helpful to anyone who is new to messing with disc brakes regardless of what they drive. Some of the tech is specific to our Dodge, but all disc brake systems are similar, and we are sure there are some tips and tricks you can use next time you work on disc brakes on your 4×4.

The first step in our brake job is to pull a cotter pin and loosen a big nut that holds the front axleshaft to the unit bearing or wheel hub assembly. On many trucks this won’t be necessary and is an added step on our truck. Many newer Jeeps and trucks have disc brake rotors that fit over the wheel hub assembly and are sandwiched between the wheel and wheel hub assembly. Once the wheel is off and the caliper unbolted, the rotor slides off the wheel studs. Our truck has the disc brake rotor attached to the back of the wheel hub assembly. This means we have to loosen this nut and remove the wheel hub assembly. Trust us when we tell you that you don’t want to try to loosen this nut once the wheel is off the ground. Use needle-nose pliers or crosscutting pliers to remove the cotter pin.

With that done we can jack up the front of the truck using our hydraulic floor jack and support the truck with jackstands. Since this is the front axle, we set the parking brake and put our truck in First gear (it has a manual transmission). You should also always chock the wheels with bricks, rocks, or a couple blocks of wood.

Once the front of the truck is supported off the ground you can remove the wheels and tires. We always roll the tire and wheel and place them under the frame or skidplate just behind the engine of the vehicle we are working on. That way if the truck falls off the jackstands it will land on the wheel and tire rather than the ground or you. Trucks do fall off jackstands, and the result can be devastating.

Now that we have access to the calipers, we remove them using a hex-head socket on a breaker bar. Most calipers are retained by slide bolts, and some are retained by clips or other bolts. With our slide bolts loosened and pulled out of the way, we coaxed the calipers off the rotor with a couple pry bars. This can take some work if the grooves in the rotors are worn into the metal.

Once the caliper is free from the brake rotor you will need to support its weight so that it is not hanging from the brake hose. Use zip-ties, bailing wire, coat hangers, old U-bolts, anything to hold the caliper up and out of the way while you work on the truck. Many Dodge trucks like ours have control arms that make for a perfect caliper resting place. At this point if our truck had rotors that slipped over the outside of the wheel hub assembly we could slip the old rotors off and slip the new ones on. We are not that lucky, but if you are you can move on to installing the pads at this time.

Using a 12-point 14mm socket we now loosen the four bolts that hold the wheel hub assembly to the axle’s outer knuckle. With those bolts removed we should be able to wiggle the wheel hub assembly and brake rotor loose from the axle. Since our truck is a little bit rusty we used this trick to loosen the wheel hub assembly. Thread one or two of the bolts back into the wheel hub assembly a little ways and use the socket and a few extensions to make up the space between the bolt and the inner axle knuckle. Now you can turn the steering wheel of the truck and use the steering system to help push the wheel hub assembly out of the outer knuckle. Be careful doing this. You don’t want to apply too much force to a part if you are unsure about having loosened all the mounting hardware.

With the wheel hub assembly and brake rotor loose from the axle we used our shop press to remove the wheel studs. The studs hold the two parts together so we need to remove them to install the new rotors from EBC Brakes. You can also use a large hammer and a brass drift to remove the studs, but be careful not to damage them as you will need them to hold the new rotor in place. During this step we noticed that one of our wheel hub assemblies was bad. There is a video showing the worn part here if you want to check it out.

The EBC Brakes GD series rotors are drilled and slotted to help the brakes shed heat. This means that the rotors are directional and there is a right and a left brake rotor as labeled by EBC. With this in mind we installed the brake rotors to the wheel hubs using the old wheel studs and the shop press. Again, you can use a large hammer and a drift to install the studs or even a few lug nuts, but the press if available is the best method.

With the new rotors installed on our wheel hub assemblies we can move on to changing the brake pads in the calipers. First we use a brake caliper tool to push the piston back into the caliper. To do this, you first want to open the brake fluid reservoir and monitor the level. As you push the piston back into the caliper the brake fluid has to go somewhere; move too much and it will spill out your reservoir and onto the paint. Brake fluid eats paint, so that’s bad. If the reservoir is too full you can remove fluid with a turkey baster or paper towel.

We love EBC’s Yellowstuff brake pads. They work well stopping our truck and come coated with a special break-in coating that helps set the pads to the rotors. To that end, break-in (or is it “brake-in”?) is important. After installing new brakes you should avoid any heavy braking for the first 1,000 miles. That will help keep your new EBC rotors and pads working at top efficiency for as long as possible. Also shown is a wear indicator. It’s the metal tang that squeals when your brakes are worn out.

Assembly is the reverse of disassembly. Make sure to torque all hardware to spec before driving your 4×4, and remember to go easy on those new brakes till things get set in. The last step for us was to reinstall those huge axle nuts and cotter pins. Adding a little black caliper paint from the parts store helps things last and makes our truck look better.

Read the full article with pictures at Four Wheeler Network

DON launches new longer lasting brake pads

DON LAUNCHES NEW LONGER LASTING BRAKE PADS FOR CVS

DON, part of TMD Friction, has launched a range of longer-lasting brake pads that, it says, will improve the efficiency of buses, trucks and trailers.

The DON 8750 range uses advanced friction technology to give longer life between service intervals, without compromising quality.

The range also includes a new lightweight backing plate for Wabco caliper applications, which can save up to 7.5kg on a six-axle truck.

DON says that this will result in better fuel consumption, is kinder on the brake discs and saves valuable weight. In addition, a unique double slot on the pads dissipates heat and increases stability.

“We are constantly developing and refining our products to ensure they meet the requirements and deliver added value to our commercial vehicle customers,” says Richard Barton, UK CV product manager at DON.

“One problem faced is the wear of brake pads and the downtime caused when their vehicles are having maintenance. The new DON 8750 will last longer while still offering a high performing product that never comprises on safety.”

Article courtesy of www.transportengineer.org.uk

BMW F32 435i With A Few Modifications Installed

BMW F32 435i gets a brake upgrade

BMW F32 435I GETS A BRAKE SYSTEM UPGRADE

For many owners, improving the braking system of their performance car is just as important as the visual upgrades. European Auto Source just completed the brake system upgrade on this BMW F32 435i which now allows the 435i Coupe to bring us to a halt in emergency situations and to also help slow us down so we can enter a corner without flying off the track. Upgrading a brake system usually involves changing the brake pads, upgrading the brake fluid, calipers and rotors.

The owner of this BMW 435i Coupe opted for an OEM upgrade. The BMW M Performance offers their brake system at about $2,300. The Brembo-engineered high-performance 4-piston aluminum fixed caliper on the front axle and 2-piston aluminum fixed caliper on the rear axle add a stunning new look and the braking power of the new BMW M3 and BMW M4.

BMW F32 435i With A Few Modifications Installed
BMW F32 435i gets a brake upgrade 10

Available in M Performance Red, Yellow, or Orange – all with an M logo – the high-performance braking system can easily match the color of your car and wheels.

Included in the set is the drilled and grooved, internally-ventilated lightweight brake disk to assure that your brake maintain optimal temperature. To ensure the proper function side of things, BMW requires at least 18-inch wheels to be utilized.

Article courtesy of BMW Blog

Bosch Continues To Expand

BOSCH QUIETCAST AND BOSCH BLUE DISC BRAKE PADS

Three new brake pad SKUs were added to extend coverage for many late-model vehicles. Of these, two new part numbers have been added to the premium QuietCast line extending coverage for domestic and European vehicles. Hardware kits are included for select applications. One new part number also has been added to the Bosch Blue line for additional European vehicle coverage.

All Bosch premium QuietCast Disc Brake Pads feature friction formulas specific to the application – semi-metallic, NAO or copper-free ceramic – and include synthetic lubricant in each package. The two new QuietCast SKUs introduced this month offer a copper-free ceramic upgrade for semi-metallic friction formulas on select applications.

Bosch QuietCast Brake pads are available for 2008-’13 BMW 128i; 2013-’15 Ford F250 Super Duty, Ford F350 Super Duty and Ford F450 Super Duty. These two new part numbers cover 556,000 units in operation.

Bosch Blue Brake Pads feature OE-style, multi-layer shims that provide superior noise dampening characteristics, the company says. For added protection, Bosch Blue Brake Pads come towel-wrapped for select applications. The material used is similar to the shop towels that technicians use on a daily basis when working on their customers’ vehicles.

The single Bosch Blue part number fits various Jaguar models including 2005-’08 Jaguar S-type, 2009-’15 Jaguar XF, 2006-’09 Jaguar XJ8 and more, covering 44,000 units in operation.

Article courtesy of www.aftermarketnews.com

Bendix Brakes launching premium line

BENDIX BRAKES LAUNCHING PREMIUM LINE FOR LIGHTER DUTY VEHICLES

Bendix Brakes is launching a new premium product line, offering brake pads, discs, shoes and complete brake shoe kit coverage for late model vehicles.

Bendix Premium line of friction products features copper-free formulations, putting it at the leading edge of environmentally-conscious brake design. Copper must be eliminated from all friction formulations by 2025 in order to meet regulations in California and Washington.

Bendix Premium rotors are platform-specific, are sold in pairs within responsible weight limits and feature a premium coating to protect from corrosion.

Bendix Premium complete brake shoe kits are pre-assembled sets of brake shoes, with all hardware included. The brake shoes are constructed with OE Grade steel and advanced adhesives for maximum strength and durability.

Article courtesy of CCJ