Clarks Organic Finned VX841C M1,M,M3, New XTR M985, Deore M615 Disc Pads Carded
£6.81
Clarks VX852C Disc Brake Replacement Pads: Organic compound, finned design for heat dissipation. Compatible with Shimano M1, M2, M3, and more.
100 in stock
Description
Organic Pads with Finned Design
- Enhance your bike’s braking performance with Clarks Bicycle Disc Brake Pads.
- What sets them apart is their unique finned design, which helps transfer heat build-up from the disc pad backing plate into the fins.
Improved Heat Dissipation
- The finned design of these replacement pads significantly increases heat dissipation.
- This process reduces the brake pad surface temperature by up to 500°C, ensuring that your brakes stay cool even during intense rides.
- Lowering the pad temperature results in benefits such as increased braking power, improved performance, and modulation without the risk of brake fade due to overheating.
Designed for Specific Shimano Models
- These replacement pads are designed to be used in conjunction with Clarks Finned disc pad carriers. They are compatible with a range of Shimano models, including:
- M1
- M2
- M3
- New XTR M985
- M987
- M988
- M975
- M965
- XT M785
- SLX M666
- Deore M615
- Upgrade your disc brakes with Clarks Bicycle Disc Brake Pads Replacement and experience improved braking performance and heat management. Whether you’re a mountain biker or a road cyclist, these organic pads with a finned design are a valuable addition to your bike’s components.
Additional information
Weight | 100 g |
---|---|
Type | Disc Brake Pads |
Brand | Clarks |
Over 2KG | NO |
Micro | NO |
Search Term | Organic Finned 16852/FR Disc Brake Pads Organic Finned 16852/FR |
Short Description | Clarks Organic Finned VX841C M1,M,M3, New XTR M985, Deore M615 Disc Pads Carded |
E Category | Bike Brake |
Sub-Category | Brakes |
Feature1 | Clarks finned disc brake pad carriers feature a unique design that helps to transfer heat build-up in the disc pad backing plate into the Fins. |
Feature2 | By lowering the pad temperature the rider benefits from increased power, increased performance and modulation without loss of performance through the brakes fading due to overheating. |
Feature3 | By lowering the pad temperature the rider benefits from increased power, increased performance and modulation without loss of performance through the brakes fading due to overheating. |
Feature9 | By lowering the pad temperature the rider benefits from increased power, increased performance and modulation without loss of performance through the brakes fading due to overheating. |
gtin | 5021646035077 |
Woocategory1 | Cycle |
Woocategory2 | Bike Parts |
Woocategory3 | Brakes |
Woocategory4 | Disc Brake Pads |
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