aFe Power 49-33084-B - MACHForce XP Exhausts Cat-Back SS-304 EXH w/ Black Tips 15-16 Ford Mustang EcoBoost 2.3L (t)
aFe Power 49-33084-B
*some restrictions apply
- Part Number:
- 49-33084-B
- SKU:
- AFE-49-33084-B
- UPC:
- 802959493984
- Availability:
- IN STOCK AND READY TO SHIP - See Disclaimer
- DISCLAIMER - THIS ITEM IS A SPECIAL ORDERED PART:
- This item is IN STOCK, but it has a Special Order Return Policy - the product is subject to the special order return and cancellation policy as seen in our terms and conditions. This may result in cancellation restrictions, or higher than normal restocking fees.
aFe Power - 49-33084-B
MACH Force-Xp 3 IN to 2-1/2 IN Stainless Steel Cat-Back Exhaust w/ Black Tip Ford Mustang EcoBoost 15-19 I4-2.3L (t)
aFe is proud to introduce our Mach Force-Xp cat-back exhaust systems. In recent testing, this system produced +16 horsepower and +17 lbs. x ft. of torque on our in house dyno. This cat-back exhaust system utilizes 3in into 2-1/2in tubing with a clamp-on reduction tube to fit the stock connections. Remove them and combine with the aFe Power Twisted Steel down-pipes (P/N: 48-33017-HC or 48-33017-HN) for added flow and performance. This system incorporates dual, high-flow mufflers to improve performance across the power band while maintaining an aggressive sound. To finish off the exhaust, dual 4 diameter gloss black 304 stainless steel tips are included. This system includes hardware for a hassle-free installation.
- Produces An Astonishing 16 HP And 17 ft./lbs. Of Torque
- 3 in. To 2.5 in. Mandrel Bent Tubing
- Includes Dual; High-Flow Mufflers
- 2-To-1 Mitered Split To Eliminate Dead Zone For Improved Flow
- Dual 4 in Double Wall Gloss Black 304 Stainless Steel Tips
- 100% Hand Welded For Optimal Strength And Durability
- Includes High Quality Band Clamps For An Improved Seal
- Uses Factory Mounting Locations For Easy Installation
- Made From Mandrel Bent Stainless Steel Tubing For Maximum Flow
- Smooth Bends Allow For Low Increased Horsepower And Torque
- Will NOT Fit Convertible Models