Hawk Performance DTC-60 Front Brake Pads - HB464G.764

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Hawk Performance DTC-60

Running with extremely high deceleration rates and increased downforce poses different challenges, so Hawk designed DTC-60 race compound. Recommended with DTC-70 when split friction between axles is desired, it has excellent modulation and release characteristics.

Expert Opinion

DTC-60 has the same temperature range as DTC-70, but produces less brake torque. Many racers of lighter, smaller cars such as the Miata and S2000 will run DTC-60 Front and DTC-30 Rear. On larger, heavier, cars such as Corvettes, Mustangs, Porsches, BMWs and other specialty race cars, the DTC-60 is run on the rear with DTC-70 up front. This is not an entry level race compound and should not be driven on the street. Use when you are a serious racer with track experience and have had issues with less aggressive compounds overheating or not providing enough bite.

Hawk Performance DTC-60 Race Compound Characteristics:

  • Superior Release and Torque Control
  • Very Low Pad and Rotor Wear
  • High Torque
  • Excellent Modulation and Release Characteristics
  • Applicable to NASCAR, NASCAR modified, ARCA, Super Late models, pavement circle track, Pro 2, Pro 4 Off Road Trucks, Pro Lite, Sports Car, GT, GS, Open Wheel, Formula, Monster Trucks
  • Stable Friction Output
  • 400-1600 Deg F Operating Temperature Range
  • 600-1200 Deg F Optimal Temperature Range


Hawk Race Compound Chart

Hawk Brake Pad Installation Procedure

  • Install Brake pads properly. Be sure pads are securely positioned in the caliper.
  • Flush system with fresh brake fluid.
  • Check all hydraulic parts for excess wear and tear.
  • Check disc for proper thickness, parallelism, and lateral run-out.
  • Check disc for scoring or grooves over .012"" depth. If either applies, resurfacing or replacement is required.
  • If disc does not need resurfacing then contamination from the previous brake pads must be removed. Sand discs with Garnet sandpaper using moderate pressure. Use soap and water to clean off disc surface after sanding and machining. Discs should be free and clear of oil, grease, and brake fluid
  • Inspect calipers for freedom of movement. Lubricate where necessary


Hawk Brake Pad Bedding Procedure - Motorsports Pads

  • After reaching medium speed engage brake pedal to slow car without coming to a complete stop. Release pedal quickly and do not drag brakes. Repeat four or five times.
  • At higher speeds engage brake pedal to slow car without coming to a complete stop. Release pedal quickly and do not drag brakes. Repeat five times.
  • At or near race speed engage brake pedal to slow car without coming to a complete stop. Release pedal quickly and do not drag brakes. Repeat three times. Allow a few seconds between brake engagements while car is in motion.
  • Do not hold brake pedal. Park car for approximately 20 minutes or until brake rotors are completely cool to the touch.
  • If during the above steps the brake pedal becomes soft or brake fade is noticed, park the car immediately for approximately 20 minutes. Do not hold brake pedal.


Important Reminders when Burnishing or Bedding Brake Pads

  • Do not attempt to use badly worn or damaged rotors with new brake pads.
  • Do not drag brakes while car is moving during break-in procedure.
  • Do not engage pedal while car is stopped at any time following the break-in procedure.
  • Upon completing the procedure, allow the brake system to completely cool before racing.
  • Applying the pedal a few times before the start of the race will allow the brake pads to heat up before attempting to reach race speeds.
    • li>Clean a used rotor surface with fine sand paper or steel wool, rinse with water, dry and install before bedding new pads
  • Some forms of racing do not allow time for the proper break-in procedure to be performed. However, it is still very important to attempt to perform at least the core of the procedure: Build up heat slowly and allow the system to completely cool down before racing if possible.

This part is for the Front of:

  • 2010 BMW X3 xDrive30i 3.0L
  • 2009 BMW X3 xDrive30i 3.0L
  • 2008 BMW Z4 Roadster 3.0si 3.0L
  • 2008 BMW Z4 M Roadster 3.2L
  • 2008 BMW Z4 M Coupe 3.2L
  • 2008 BMW Z4 Coupe 3.0si 3.0L
  • 2008 BMW X3 3.0si 3.0L
  • 2007 BMW Z4 Roadster 3.0si 3.0L
  • 2007 BMW Z4 M Roadster 3.2L
  • 2007 BMW Z4 M Coupe 3.2L
  • 2007 BMW Z4 Coupe 3.0si 3.0L
  • 2007 BMW X3 3.0si 3.0L
  • 2006 BMW Z4 Roadster 3.0si 3.0L
  • 2006 BMW Z4 M Roadster 3.2L
  • 2006 BMW Z4 M Coupe 3.2L
  • 2006 BMW Z4 Coupe 3.0si 3.0L
  • 2006 BMW X3 3.0i 3.0L
  • 2006 BMW M3 Base Exc.Competition 3.2L
  • 2006 BMW M3 Base Competition 3.2L
  • 2006 BMW 330Ci Base 3.0L
  • 2005 BMW X3 3.0i 3.0L
  • 2005 BMW X3 2.5i 2.5L
  • 2005 BMW M3 Base Exc.Competition 3.2L
  • 2005 BMW M3 Base Competition 3.2L
  • 2005 BMW 330xi Base 3.0L
  • 2005 BMW 330i Base 3.0L
  • 2005 BMW 330Ci Base 3.0L
  • 2004 BMW X3 3.0i 3.0L
  • 2004 BMW X3 2.5i 2.5L
  • 2004 BMW X3
  • 2004 BMW M3 Base 3.2L
  • 2004 BMW 330xi Base 3.0L
  • 2004 BMW 330i Base 3.0L
  • 2004 BMW 330Ci Base 3.0L
  • 2003 BMW M3 Base 3.2L
  • 2003 BMW 330xi Base 3.0L
  • 2003 BMW 330i Base 3.0L
  • 2003 BMW 330Ci Base 3.0L
  • 2002 BMW M3 Base 3.2L
  • 2002 BMW 330xi Base 3.0L
  • 2002 BMW 330i Base 3.0L
  • 2002 BMW 330Ci Base 3.0L
  • 2001 BMW M3 Base 3.2L
  • 2001 BMW 330xi Base 3.0L
  • 2001 BMW 330i Base 3.0L
  • 2001 BMW 330Ci Base 3.0L
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