Product Reviews for K&N Air Intake 2013-2016 Dodge Ram 1500 3.6 V6
Built for performance and show, this K&N Air Intake System is a free-flowing mandrel-bent aluminum tube induction system designed to fit many sport compact performance vehicles. Restriction can exist BETWEEN an air filter and the engine reducing the benefit of a K&N Air Filter. The weakest link in the airflow “chain” robs a vehicle of its natural horsepower. Often that weak point is the factory air path leading to the Engine. K&N Air Intake Kits virtually eliminate air path restriction by replacing the air filter and the entire air path to the engine. The aerodynamically engineered tube drives a massive amount of air into an engine, which translates into POWER.
K&N Intake kits are truly state-of-the-art. K&N starts with the largest conical shaped high-flow air filter they can fit into the engine compartment while using factory holes and mounting points. This extra filter size provides even more airflow at lower restriction than a standard K&N O/E replacement filter that is limited to the size of the factory air box. The oversized air filter also captures and holds more dirt increasing the service life before a cleaning is required (up to 100,000 miles).
Put all this together and you have the best high-flow intake system available today.
The part number for this item is 77-1564KP and it fits 2013-2016 Dodge Ram 1500 3.6 V6 models.
This item comes with a Lifetime Warranty.
Part 77-1564KP Product Specifications
Product Style: 77 Series
Estimated Horsepower Gain: 11.98 HP @ 6371 RPM
Type: Cold Air Intake
Replacement Filter: RF-1042
CARB Exempt: Not Yet CARB EO Number: Not Yet
TUV Approved (Europe): No
* Guaranteed to Provide more HP and Increased Acceleration
* Engineered to Specific Vehicle Design
* Easy to Install, Usually in 90 minutes or less!
* Million Mile Limited Warranty
* Replaces OEM Filter and Air Box
* Air Filter is Washable and Reusable
* Works with Original Equipment Manufacturer Computer Systems
* Designed to use Factory Holes & Mounting Points Whenever Possible