DEI - 10271
Onyx(TM) Series Turbo Shield/Blanket - GEN-3 T25/T28 Shield
We raised the bar. The most technologically advanced turbo shield ever! We incorporated all our experience to build the absolute best turbo shield on the market. By developing advanced textiles and diving deep into what is needed to control turbo heat, we developed the GEN-3 Onyx Black Turbo Shield. A Silicone coated Onyx Black outer layer with multiple stainless steel and silica inner layers. Without a doubt the strongest, most heat resistant shield available. OUTER SHELL - Coated in silicone to insulate and hold up under extreme conditions. - Prevents fraying & encases seams to make them over 4 times stronger INSULATION LAYER - Thick layer of silica insulation keep heat in turbo shield and turbo housing. - Silica has a low thermal conductivity making one of the best insulators. INNER LAYER - Stainless steel, glass fiber & silicone adds to insulating and thermal properties. - Increases seam strength, durability and insulation value. INNER COVER - Stainless Steel fabric holds up against the highest temps. - Will not break down or become brittle with heat. Measuring your turbo size DEI Turbo shield sizes are based on two basic measurements. The first measurement is the circumference of the turbo not including the flange. The second measurement is the width of the turbo at it's widest point not including the flanges. After measuring, refer to the chart below to find the correct shield. Our T22 and T25/28 shields are designed for use on internally gated housings. They will have a cutout in the wastegate area to allow for a tight fitment. TURBO MEASUREMENTS CHART TURBO - CIRCUMFERENCE - WIDTH T22 - 15" - 2.25" T25/28 - 15" / 16" - 2.5" T3 - 15" / 16" - 2.5" T4 - 20" / 22" - 2.75" T6 - 26" - 3.75"
- Riveted anchors incorporated to secure shield.
- Ultimate thermal barrier reduces turbo lag.
- Silicone coated Onyx Black outer shell.
- Silica inner insulation layer.
- Glass fiber with stranded stainless inner layer.
- Barrier layer of fine stainless mesh.