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- Porsche Boxster 986 2.5L 1997-99
- Porsche Boxster 986 2.7L 1999-02
- Porsche Boxster S 986 3.2L 1999-02
- Porsche Boxster 986 2.7L 2003-04
- Porsche Boxster S 986 3.2L 2003-04
- Porsche Boxster 987 2.7L 2005 -08/08
- Porsche Boxster 987 S 3.2/3.4L 2005-08/08
- Porsche 996 C2 3.4L 1997-08/01
- Porsche 996 C4 3.4L 1997-08/01
- Porsche 996 C2 3.6L 09/01-2005
- Porsche 996 C4 3.6L 09/01-2005
- Porsche 996 C4S 3.6L 09/01-2005
- Porsche 996 TURBO 2000-05
- Porsche 996 GT2 2001-05
- Porsche 996 GT3 MKI 1999-02
- Porsche 996 GT3 MKII 2003>>
- Porsche 997 MK1 Carrera 2 3.6L 2005-08
- Porsche 997 MK1 Carrera 2S 3.8L 2005-08
- Porsche 997 MK1 Carrera 4 3.6L 2005-08
- Porsche 997 MK1 Carrera 4S 3.8L 2005-08
- Porsche 997 MKII Carrera C2S 3.8L 2009-12
- Porsche 997 MKII Carrera C4S 3.8L 2009-12
- Porsche Cayman S 3.4L 987C 2005-08
- Porsche Cayman 2.9L 987C MKII 2009-12
- Porsche Cayman S / R 3.4L 987C MKII 2009-12
This Product Fits:
Porsche 986 Boxster S 3.2 99-05 Front
Porsche 987 Boxster S 3.2 05>> Front
Porsche 987C Cayman 06>> Front
Porsche 996 3.4/3.6 97-05 Front
Porsche 997 3.6L C2/C4* 05-09 Front
*Not S 3.8L
Porsche 997 3.6L C2/C4* 09>> Front
*Not S 3.8L
Porsche 996 C4S 02-05 Rear
Porsche 996 GT2 02-05 Rear
Porsche 996 GT3 MKI 99-01 Rear
Porsche 996 GT3 MKII 02-05 Rear
Porsche 996 3.6LTurbo 02-05 Rear
Porsche 997 3.8L C2S/C4S 05-09 Rear
The problem of brake fluid boiling is simply traced to heat transferring from the rotors and pads directly into the fluid through the caliper pistons. When brake fluid boils, it releases air that is normally part of the molecular structure of the fluid. This air is compressible of course, and the brake pedal goes to the floor instead of moving the caliper pistons. Production cars tend to suffer from this on track days more as they don't usually have the extensive cooling duct and exotic brake materials as true racing cars. True racing only brake calipers generally come with titanium caliper pistons for one reason. Titanium as a material has low thermal conductivity. This means that it is very bad at transferring heat, which is fantastic if you are trying to keep your fluid cool.
The Girodisc solution to help prevent fluid boiling is to use a thin titanium shim placed between the pad back and the pistons, to keep the braking heat from transferring into the pistons and fluid. Here is a comparison of materials and their relative thermal conductivity ratings:
Titanium 6AL-4V 6.7 W/mk
Steel 52 W/mk
Aluminum 130 W/mk
You can see that Titanium will transfer far less heat than steel and especially aluminum. For cars that are going to see hard or multiple track days, these shims are cheap protection from losing the pedal due to boiling at the wrong time and making the day very expensive.
Water jet cut to exact size, no cutting, grinding, or swearing involved.
Price is per axle (four pieces)
Related reference numbers
Related, superseded, cross reference or alternative numbers for comparison.
TS-917-4
The product you are viewing cross references to these numbers
- Porsche Boxster 986 2.5L 1997-99
- Porsche Boxster 986 2.7L 1999-02
- Porsche Boxster S 986 3.2L 1999-02
- Porsche Boxster 986 2.7L 2003-04
- Porsche Boxster S 986 3.2L 2003-04
- Porsche Boxster 987 2.7L 2005 -08/08
- Porsche Boxster 987 S 3.2/3.4L 2005-08/08
- Porsche 996 C2 3.4L 1997-08/01
- Porsche 996 C4 3.4L 1997-08/01
- Porsche 996 C2 3.6L 09/01-2005
- Porsche 996 C4 3.6L 09/01-2005
- Porsche 997 MK1 Carrera 2 3.6L 2005-08
- Porsche 997 MK1 Carrera 4 3.6L 2005-08
- Porsche Cayman 2.7L 987C 2006-08
- Porsche Cayman S 3.4L 987C 2005-08
- Porsche Cayman 2.9L 987C MKII 2009-12
- Porsche Cayman S / R 3.4L 987C MKII 2009-12
This Product Fits:
Porsche 986 Boxster 2.5/2.7 97-05 Rear
Porsche 986 Boxster S 3.2 99-05 Rear
Porsche 987 Boxster 2.7 05>> Rear
Porsche 987 Boxster S 3.2 05>> Rear
Porsche 987C Cayman 06>> Rear
Porsche 996 3.4/3.6 97-05 Rear
Porsche 997 C2/C4 05-09 Rear
The problem of brake fluid boiling is simply traced to heat transferring from the rotors and pads directly into the fluid through the caliper pistons. When brake fluid boils, it releases air that is normally part of the molecular structure of the fluid. This air is compressible of course, and the brake pedal goes to the floor instead of moving the caliper pistons. Production cars tend to suffer from this on track days more as they don't usually have the extensive cooling duct and exotic brake materials as true racing cars. True racing only brake calipers generally come with titanium caliper pistons for one reason. Titanium as a material has low thermal conductivity. This means that it is very bad at transferring heat, which is fantastic if you are trying to keep your fluid cool.
The Girodisc solution to help prevent fluid boiling is to use a thin titanium shim placed between the pad back and the pistons, to keep the braking heat from transferring into the pistons and fluid. Here is a comparison of materials and their relative thermal conductivity ratings:
Titanium 6AL-4V 6.7 W/mk
Steel 52 W/mk
Aluminum 130 W/mk
You can see that Titanium will transfer far less heat than steel and especially aluminum. For cars that are going to see hard or multiple track days, these shims are cheap protection from losing the pedal due to boiling at the wrong time and making the day very expensive.
Water jet cut to exact size, no cutting, grinding, or swearing involved.
Price is per axle (four pieces)
Related reference numbers
Related, superseded, cross reference or alternative numbers for comparison.
TS-738-4
The product you are viewing cross references to these numbers
Titanium Brake Pad Shields - Advanced Heat Protection for Performance Braking Systems
Titanium brake pad shields are precision-engineered heat protection components designed to reduce heat transfer from brake pads and discs into brake calipers and fluid. Manufactured from high-grade titanium, these shields act as a thermal barrier, helping to control brake temperatures during aggressive road driving, track days, and motorsport use.
Available from Design911, titanium brake pad shields are a proven upgrade for performance and track-focused vehicles, where excessive brake heat can lead to fluid boil, reduced pedal feel, and brake fade. By managing heat more effectively, these shields help maintain consistent braking performance under extreme conditions.
What Do Titanium Brake Pad Shields Do?
Titanium brake pad shields sit between the brake pad and caliper piston, acting as a thermal insulator.
Core Functions:
- Reduce heat transfer from pads to calipers and brake fluid.
- Help prevent brake fluid boiling under high temperatures.
- Maintain consistent pedal feel during heavy braking.
- Reduce brake fade during repeated high-load use.
- Protect caliper seals and components from heat damage.
Their low thermal conductivity makes titanium ideal for extreme braking environments.
Why Do Brake Pad Shields Wear or Fail?
Brake pad shields operate in one of the harshest environments on the vehicle.
Common Causes of Wear or Failure Include:
- Extreme
heat cycling during track or performance driving.
- Physical
distortion from prolonged high temperatures.
- Incorrect
installation or pad fitment issues.
- Fatigue
over time from repeated thermal stress.
- Pad changes where shields are reused beyond service limits.
When shields degrade or distort, their ability to insulate heat is reduced—making replacement essential for continued braking performance.
Why Replace or Upgrade to Titanium Brake Pad Shields?
Replacing worn shields—or upgrading from standard steel shims—provides a measurable improvement in braking reliability.
Key Benefits:
- Superior heat resistance compared to conventional shims.
- Improved protection for brake fluid and caliper seals.
- More consistent braking performance under heavy use.
- Ideal for track days, fast road driving, and motorsport.
- Lightweight and corrosion-resistant construction.
Titanium brake pad shields are a small upgrade that delivers significant benefits for high-performance braking systems.
Highlights
- High-grade titanium heat shield construction.
- Reduces heat transfer into calipers and brake fluid.
- Improves pedal feel and braking consistency.
- Suitable for performance road and track use.
- Essential upgrade for high-temperature braking environments.
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Brake Pads & Disc Package
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SPORTS Brake Pads & Disc Package
-
Brake Pads Packages
-
Brake Disc Standard
-
Brake Pads Standard
-
SPORTS Brake Disc
-
Brembo Standard brakes
-
Brembo Racing brakes
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TEXTAR Brakes
-
PAGID Racing Brakes
-
Zimmermann Brakes
-
Performance Friction Brakes
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Giro Slotted Brake Disc
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SHW Performance Brakes
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EBC Brakes
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Black Diamond Performance Brakes
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O-Brake Brake Discs
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Rotinger Graphite Line
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Replacement for Ceramic Disc
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Brake Pad Wear Sensors
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Brake Pad Anti-vibration shims
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Caliper Bolts / Disc Screws
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Pin Kit and Guide Plates
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Performance Brake Hoses
-
Standard Brake Hoses
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Caliper and Brake Lines
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Brake Calipers
-
Brake Caliper Upgrades
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Handbrake Shoes
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HandBrake Cables
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Electric parking brake
-
Brake Disc Cover Plates
-
ABS | Speed Sensors
-
Caliper Seals |Pistons
-
Brake Servo | Booster
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Brake Master Cylinder
-
Brake Fluid Reservoir
-
Brake Fluid
-
Centre Locking Hubs
-
Duct Spoiler / Air Scoop
-
DesignTek Brake Kits
-
Build Your Own Brake Kit
