- Angled Carrier Rail Cuts for flawless function in adverse conditions and prolonged suppressed use
- Full Auto Profile
- Permatex added between Gas Key and Carrier Mating Surface
- Carrier- 8620 steel, outside rails, bolt runs, and gas bores ground to .0002 tolerances, DLC Finish, Chrome Lined
- Gas key – 4130 steel, heat treated, secured with T25 torx fasteners, torqued to spec, staked with hydraulic staking machine, DLC Finish
- 9.5 oz
Machined in house and assembled using only the finest steels and components.
KAK Industry takes pride in producing some of the finest Mil-Spec/ Enhanced AR15 bolt carrier groups available, made 100% in house at our MO facility using Doosan machining centers, Tsugami Swiss turning, and the latest in FANUC robotics combined into an automated cell giving us lights out production capability. In house automated CMM Inspection processes ensure consistent quality.
DLC (Diamond-Like Carbon) coating is a type of thin film coating that mimics the properties of diamond. It’s known for its exceptional hardness, wear resistance, and low friction characteristics. DLC coatings are applied using various techniques and are widely used in industrial, automotive, and consumer applications.
Properties of DLC Coatings
- Hardness: DLC coatings are extremely hard, often approaching the hardness of natural diamond. This makes them highly resistant to abrasion and wear.
- Low Friction: The low friction coefficient of DLC coatings reduces friction between surfaces, which can enhance the performance and longevity of moving parts.
- Corrosion Resistance: DLC coatings provide good resistance to corrosion, protecting the underlying material from degradation due to environmental factors.
- Chemical Resistance: They are resistant to many chemicals, which makes them suitable for harsh environments.
- Optical Properties: DLC coatings can be transparent or have a black appearance, and they can be tailored to have various optical properties depending on the application.
How DLC Coating is Applied
DLC coatings are typically deposited using one of the following methods:
- Chemical Vapor Deposition (CVD): This process involves creating a gas-phase precursor that decomposes on the substrate surface to form the DLC film.
- Physical Vapor Deposition (PVD): Similar to other PVD techniques, this involves vaporizing a carbon source in a vacuum and allowing it to deposit onto the substrate.
- Plasma-Enhanced CVD (PECVD): This technique uses plasma to enhance the chemical reaction that deposits the DLC coating.
- Finish:
- DLC Smoked Grey
- Type:
- K-SPEC ENHANCED
- Hand Preference:
- Right Hand