Free shipping for orders over $100.00 (US Domestic 48 states)

We ensure secure payment

100% Money Back
You have 30 days to Return

DC1 Toe Blocks are a solid, no pills needed, direct fit option to replace the traditional C and D Blocks. CNC machined in house to provide a fixed 0.5 Degrees of toe in for the rear wheels. Set screws allow drivers to remove any slop or movement in the pins or arms.

 These blocks will offer a fixed toe position, while also changing trackwidth. The best way to identify these toe blocks would be the following:

The original 0.5degree Toe Blocks are unmarked on the side, these are (-.5deg toe and -4mm rear trackwidth) This -4mm is measured based off a central pill location in the stock C+D Block.

The -1mm Toe Blocks will be marked accordingly, These will be (-.5deg Toe and -2mm Trackwidth)

Features and Specifications:

  • Lightweight CNC machined 6061 T6 aluminum
  • Direct fit / Uses the same hardware
  • No slop in pins or arms 
  • No pills needed

R1WURKS DC1 Toe Blocks (0.5 Degree)

SKU: 990923-1
Regular price $30.00
Unit price
per 

DC1 Toe Blocks are a solid, no pills needed, direct fit option to replace the traditional C and D Blocks. CNC machined in house to provide a fixed 0.5 Degrees of toe in for the rear wheels. Set screws allow drivers to remove any slop or movement in the pins or arms.

 These blocks will offer a fixed toe position, while also changing trackwidth. The best way to identify these toe blocks would be the following:

The original 0.5degree Toe Blocks are unmarked on the side, these are (-.5deg toe and -4mm rear trackwidth) This -4mm is measured based off a central pill location in the stock C+D Block.

The -1mm Toe Blocks will be marked accordingly, These will be (-.5deg Toe and -2mm Trackwidth)

Features and Specifications:

  • Lightweight CNC machined 6061 T6 aluminum
  • Direct fit / Uses the same hardware
  • No slop in pins or arms 
  • No pills needed

Net Orders Checkout

Item Price Qty Total
Subtotal $0.00
Shipping
Total

Shipping Address

Shipping Methods