aFe Power 49-36628-C - Takeda 2.5in 304 SS Cat-Back Exhaust System w/CF Tips 2022+ Honda Civic L4-1.5L (t)
aFe Power 49-36628-C
*some restrictions apply
- Part Number:
- 49-36628-C
- SKU:
- AFE-49-36628-C
- UPC:
- 802959635261
- 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 - 49-36628-C
Takeda 2-1/2 IN to 2-1/4 IN 304 Stainless Steel Cat-Back Exhaust w/ Carbon Fiber Honda Civic Sedan 22-23 L4-1.5L (t)
This cat-back exhaust system is constructed of 2-1/2 IN - 2-1/4 IN mandrel-bent 304 stainless steel tubing for maximum strength and durability. This system features high-flow 304 stainless steel polished mufflers, producing a aggressive sound. The mufflers has a polished finish for ultimate corrosion resistance. Finishing off this exhaust system are dual 3-1/2 IN diameter carbon fiber 304 stainless steel clamp-on exhaust tips. The tips features an aFe POWER logo for a unique style. This system produces an aggressive sound unleashing all available horsepower and torque. Utilizing a factory style flange and hangers this system is a direct bolt-on system, which requires no cutting or modifications for a hassle-free installation. A mitered merge collector is used to decrease turbulence and increase exhaust velocity resulting in increased horsepower, torque and improved throttle response. State-of-the-art computer-aided design technology is utilized for precise vehicle fitment. 100% MIG-Welded for race-proven strength and durability.
- Constructed from 2-1/2 IN - 2-1/4 IN Mandrel-Bent 304 Stainless Steel Tubing
- Dual 3-1/2 IN Diameter Carbon Fiber 304 Stainless Steel Clamp-On Exhaust Tips
- Utilizes Factory Style Flange and Hangers for a Secure Fit
- 100% MIG-Welded for Strength and Durability