[SHOT Show 2020] CCI Expands ‘Clean-22’ Coated Bullet Ammo Line

   02.11.20

[SHOT Show 2020] CCI Expands ‘Clean-22’ Coated Bullet Ammo Line

CCI has a nifty line of 22 LR rimfire ammunition, introduced last year, called Clean-22. It’s an entirely new approach to 22 LR ammunition, which has traditionally required the bullet to be lubricated in some way which usually causes quite a bit of fouling. This means more time cleaning your gun and less time happily shooting it, which is un-good.

Clean-22 replaces the slightly-sticky lube or thin metal plating normally used on a 22 LR bullet with a colored polymer coating. Here’s what CCI says about it:

Clean-22 uses an exclusive polymer bullet coating to greatly reduce copper and lead fouling in the barrel—without leaving a residue. It also cuts lead buildup in suppressors by up to 60 percent—depending on outside variables. Bullets in this product line are manufactured using bullet-shape geometry that’s been ballistically optimized for accuracy and function. And with dependable CCI priming and consistent propellant, Clean-22 provides flawless cycling through all rimfire platforms including semi-automatics.

Sub-Sonic, High Velocity, and Pink

These are the three original Clean-22 options: Sub-Sonic, High Velocity, and Pink.

CCI Clean-22 Pink
CCI Clean-22 Pink
  • All loads feature a 40-grain coated round nose lead bullet
  • Bullet coating color indicates load
  • Red = High Velocity (MV 1,235 fps)
  • Blue = Sub-Sonic (MV 1,070 fps)
  • Pink = Pink to fight breast cancer (MV 1,235 fps) (Portion of proceeds goes directly to the effort to find a cure.)

Clean-22 Suppressor

New for 2020 is the “Clean-22 Suppressor 22 LR” load. They say the coated bullet can “reduce lead fouling inside a suppressor by up to 60 percent!” Wow.

CCI Clean-22 Suppressor
CCI Clean-22 Suppressor
  • Black polymer coating reduces lead fouling in suppressors up to 60 percent
  • Ballistically optimized 45-grain lead round nose bullet
  • Reliable function in semi-automatic firearms
  • Extremely reliable CCI priming
  • MV 1,000 fps
  • 200-count “pour pack” (like a small milk carton)
  • MSRP $28.99

Clean-22 Maxi-Mag SHP

This is CCI’s expansion of Clean-22 into the much more powerful 22 WMR, a.k.a. 22 magnum. Not only is the bullet coated with polymer, it’s segmented to cause massive damage upon impact.

New Clean-22 Maxi-Mag SHP is the industry’s only segmenting hollow-point bullet in 22 WMR. The load’s 46-grain Segmented Hollow Point splits into three equal-size pieces on impact, tripling the number of wound channels. The polymer bullet coating allows this separation at much lower velocities and longer distances than a conventional copper jacket. This load features an olive drab green bullet and is available in 50-count boxes.

CCI Clean-22 Maxi-Mag SHP
CCI Clean-22 Maxi-Mag SHP

This should be good for small game work at close range with a 22 mag. After I started toting a 22 magnum rifle for hunting squirrels and raccoon, I found expansion at close range to be problematic at times. This is usually not a problem with squirrels, because with head shots most any bullet will do. On medium-size game, however, a lack of expansion can often mean simply punching holes in your game rather than getting a clean kill.

It’s rated at 1875 fps MV, and a 50-round box will retail for $17.99.

Avatar Author ID 61 - 1398099532

Editor & Contributing Writer Russ Chastain is a lifelong hunter and shooter who has spent his life learning about hunting, shooting, guns, ammunition, gunsmithing, reloading, and bullet casting. He started toting his own gun in the woods at age nine and he's pursued deer with rifles since 1982, so his hunting knowledge has been growing for more than three and a half decades. His desire and ability to share this knowledge with others has also grown, and Russ has been professionally writing and editing original hunting & shooting content since 1998. Russ Chastain has a passion for sharing accurate, honest, interesting hunting & shooting knowledge and stories with people of all skill levels.

Read More