Miles Racing Disc Brake Pads - Shimano (Deore, Altus, Acera) and Tektro (Auriga, Aries, Aquila) - Or
Breathe new life into your Shimano Deore or Tektro brake systems with a set of new brake pads. You can choose from organic, semi-metallic, and sintered compounds to suit your riding style and terrain.
Designed for Deore and a number of Tektro brakes, these pads are a direct replacement for the following brake systems:
- Shimano Deore
- Shimano Nexave
- Shimano Acera
- Shimano Altus
- Shimano Alivio
- Shimano Tourney
- Tektro Auriga
- Tektro Orion
- Tektro Gemini
- Tektro Volans
- Tektro Vela
- Tektro Aquila
- Tektro Aries
- Tektro Mira
Each set includes pads and a spring to replace the brake pads on one caliper.
Different Types of Disc Brake Pad Compounds
Typically you'll find that there are three types of compounds to choose from when buying new brake pads for your disc brake equipped bike. They are:
Each of these brake pad compounds will provide a different feel during braking. You'll also find that one compound may last longer compared than another depending on the type of rider you are and the amount to which you use your brakes.
What compound should I choose?
Choosing a compound ultimately depends on the type of riding you are doing. In most cases a semi-metallic pad will exceed the needs of most riders because it combines the durability of sintered with the feel of organic compounds. To make sure you're getting the best pad for your riding style, review the benefits of each below.
Organic Brake Pads
Organic disc brake pads are made completely of resin and are a much softer compound than a semi-metallic or sintered pad. This softer material means they have a much stronger initial bite and can be easily modulated depending on how much power you need. However, the softer material also means they heat up much faster than a pad with metallic compounds added, so they can fade on steeper or longer descents where a lot of braking is required.
Besides how they feel, another benefit to organic pads is that they break in quickly. Once installing them into the caliper, it only takes a few moments to have the pads feeling strong and ready to go. Semi-metallic, and especially sintered, take much longer to bed in.
|ORGANIC PAD PROS||ORGANIC PAD CONS|
|- Strong initial bite||- Faster wearing|
|- Easy to modulate||- Prone to fade under intense braking|
|- Quietest||- Not ideal for adverse conditions (wet, mud, etc.)|
Semi-Metallic Brake Pads
Semi-metallic brake pads are an all-round solution for most common conditions, where brakes are not getting extremely hot. They work best for dirt jumping, cross country and lighter enduro rides with shorter downhill segments. They'll even be more than capable for downhill riders who aren't standing on the brakes all the way down, or for lighter riders.
With a high percentage of iron and copper added to the resin in the compound, semi-metallic pads offer a longer life and more heat resistance compared to organic disc brake pads. The metal compounds add longevity and the resin allows for the pad to have high friction against the brake rotor right away.
Because of this, you'll notice semi-metallic brake pads have a stronger initial bite when you begin to pull the brake lever. If you prefer your brakes to grab and feel strong from the start, semi-metallic pads should be your first choice.
|SEMI-METALLIC PAD PROS||SEMI-METALLIC PAD CONS|
|- Great initial bite||- Wears faster than sintered|
|- Easy to break-in||- Not ideal for adverse conditions (wet, mud, etc.)|
Sintered Brake Pads
Sintered pads, also known as metal or metallics, are brake pads that are completely made up of hardened metal, bonded together with high heat and pressure. There are no resins present in sintered brake pads making them much more durable than a semi-metallic or organic pad.
Sintered disc brake pads are perfect for larger riders, braking on steeper descents, or riders who have had to deal with brake fade issues. While the initial bite of sintered brake pads are not as strong as semi-metallic or organic compounds, they can handle way more heat.
Sintered brake pads also provide a more consistent feel and can be easily modulated, giving your brakes a progressive feel at the lever, rather than only being on or off.
Sintered pads also shine across a wider range of conditions. They are less likely to be effected by dust, mud, or water than other pad types.
|SINTERED PAD PROS||SINTERED PAD CONS|
|- Longer lifespan||- Longer break-in period|
|- Work better in all conditions||- Lower initial bite|
|- Fade at higher temperatures|
VERSATILE, ALL-WEATHER USE: Semi-metallic brake pads are best suited for daily urban rides, dirt, XC, E-bikes, trail and light enduro rides, where bikers are not pumping on their brakes continuously. Rides are more fun with the smooth and effortless braking mechanism. Enjoy quieter rides and less rotor wear compared to sintered counterparts.
PREDICTABLE PERFORMANCE: Bikers have the benefit of significantly better brake performance compared to organic brake pads. You have better peace of mind with consistent and stable performance to cover a wide range of applications. Semi-metallic brake pads tend to function better in colder riding conditions.
PRICE-PERFORMANCE RATIO: Semi-metallic brake pads offer the benefit of a comfortable, firmer brake pedal feel. They are a valuable solution to bikers who are looking for a safe, durable braking solution that does not break their budget.
DURABLE: Durable metallic construction along with Kevlar additive makes these brake pads long-lasting. Special iron and copper compound formulation gives better resistance to heat.
RELIABILITY & COMPATIBILITY: Experience highly reliable, fade-free braking performance on road bikes, touring bicycles, e-bikes, e-MTB cycles, and low impact mountain bikes. Non-asbestos construction further ensures biking safety. Made in Germany and tested by independent testing companies. Check the list of compatible brake systems for a complete list of compatible brakes.
These replacement Avid brake pads can be used in the following:
Shimano Hydraulic Disc Brakes:
- Deore BR-M575
- Deore BR-M525
- Deore LX BR-T675
- Deore BR-T615
- Deore BR-MT410
- Deore BR-M486
- Deore BR-M447
- Alivio BR-M4050
- Alivio BR-M395
- Acera BR-M3050-F
- Acera BR-M3050-R
- Altus BR-M375
- Altus BR-M365
- Altus BR-M315
- Altus BR-UR300
- Tourney BR-TX805
- Nexave BR-C50
Shimano Mechanical Brakes:
Tektro Hydraulic Disc Brakes:
- Orion SL HD-M740
- Orion 4Px2P (rear only) HD-M735
- Orion HD-M730
- Gemini SL HD-M520/M521
- Gemini HD-M510
- Gemini HD-M500/M501
- Auriga HD-M290/M291
- Volans HD-T710
- Auriga Sub HD-T520
- Auriga Tune HD-T530
- Vela HD-T290
- Auriga Twin HD-T525
- Dorado HD-E715
- Auriga E-Tune HD-E530
- Auriga E-Twin HD-E525
- Auriga E-Sub HD-E520
- Auriga E-Comp HD-E500
Tektro Mechanical Disc Brakes:
- Aquila MD-M500
- Aries MD-M300
- Mira MD-C400
And are a direct replacement for the following Shimano and Tektro part numbers:
Tektro: P20.11, E10.11, A10.11
To get the most braking power out of your new semi-metallic pads, it is important to follow these steps to break them in properly.
- Brake for 5 seconds while riding at a speed of about 7 mph. Repeat this process 3 more times.
- Brake from about 20 mph with medium power and release before coming to a complete stop. Repeat this process 20-30 times. You should feel the brake performance increase. Let the pads cool between each stop.
- Done - Ready for action!
Attention: To avoid glazing, sintered brake pads need a running in time without heat development. The first 200 brake applications should get done controlled under lower speed. This process helps to roughen up the surface of the friction material. Because of the high metal portion, sintered brake pads need a disc with bigger holes on the braking surface, to keep the surface of the friction material rough.