Proud owner Dirk L. says: “This is my first build — never thought it would be a .308!”
Here’s a handsome F-TR rifle with a beautiful red stock that suits the holiday season. This ruby red beauty was a recent addition to the long-running Pride and Joy Rifle thread in our Shooters’ Forum. The rifle belongs to Forum member Dirk L. (aka “Pinkes”) who hails from South Africa. This is a .308 Win, with 30″ Bartlein barrel, and X-Max action. The stock is a custom composite with carbon fiber for strength and lightness. And yes this rifle shoots as good as it looks. Check out the impressive 5-shot groups below…
X-Max for Xmas — Impressive Metal-work
Along with that beautiful red stock, this F-TR rig has some very cool features, including a South African-crafted X-Max Action. The action designer Piet Welgemoed explains: “The X-Max action body is 17-4PH stainless steel pre-hardened to 44° Rockwell. Bolt and handle are one-piece stainless steel, nitrated to 55° Rockwell 0.2mm deep. Bolt is also fluted. Inside is the firing pin with washers (see below). The washer cuts the lock-time almost by half and also weighs less. The bolt-knob and bolt shroud are CNC aluminum. The action has very tight tolerances.” The complete action with +20 MOA rail and trigger weighs 1.475 kg (3.25 lbs).” Owner Dirk notes that the competition trigger, set at 3.0 ounces, is also Welgemoed’s design.
Wicked Accuracy with Bartlein Barrel, Varget, and 220gr SMKs
This gun has already proven to be a great shooter. Below are two FIVE-shot groups at 100 meters. The group on the left is in the low threes, with three of five shots essentially in one hole. Dirk loads Lapua .308 Palma brass and #2231 200gr Sierra Matchkings, seated 20 thousandths off the lands. The Varget powder and CCI primers drives the 200gr SMKs at 2620 fps.
Brass: Lapua .308 Win Palma (small primer) | Primers: CCI 450 | Powder: Varget
Bullet: New 200gr SMK #2231 | Seating: 0.020″ Off | Velocity: 2620fps
Composite Stock — One of Three by Renier Mostert
And what about that beautiful red stock? The rifle’s owner told us: “This was one of three similar stocks built as a test run by Renier Mostert, a professional composite stock builder and former benchrest shooter from Pretoria, South Africa. Renier was approached by three friends, who were all looking for decent, custom-built FTR composite stocks. There were a number of stocks available to them (mostly imported), but [those] were either made of wood or aluminum. The requirements for the composite stock build was very specific. Aluminum V-Blocks for the actions were required. The stocks had to be light enough to carry some beefy barrels and optics without compromising rigidity and still be within the F-TR weight limit. The three friends supplied Renier with an imported wooden stock as their shape of choice. Although the shape was quite straight-forward, Renier made a few dimensional changes to features which were not symmetrically correct on the sample, and then built a mold from it.”
Renier uses several methods to craft composite stocks for various disciplines: F-Class, benchrest, competition rimfire, hunting, and tactical. For this build he chose to build a shell constructed of a well-planned mix of woven fiberglass cloth and bi-directionally woven carbon fiber with aerospace quality epoxy resin to reduce weight in some areas and increase stiffness in other areas. He used a wet lay-up process where the two halves gets laid up and joined together while still wet to form a complete, continuous shell. The closed mold gets cured under pressure in an oven for several hours at very specific temperatures. After curing, the shell is filled with a high-tech mix of lightweight filler and epoxy resin. The composition of the mix varies in different areas of the stock to facilitate more strength or reduced weight where applicable.
After the initial build, the aluminum hardware was installed. An adjustable cheek piece, Anschutz rail, and adjustable recoil pad mechanism were installed. The stocks were inletted by Renier, while the final fitting and bedding procedures were left for each customer’s gunsmith to complete. The stocks were light enough for the rifles to comfortably be within the F-TR weight limit. A barrel tuner was mounted on one of the rifles, and the rifle still made the F-TR Class weight limit, 8.25 kg (including bipod). The bipod shown in photos in the SEB Joy-Pod.
Paint — Candy Apple Red over Metallic Silver Base
After final gunsmithing, the stocks were returned to Renier Mostert for custom painting. The rifle featured in this article was done in Candy-Apple Red paint from DNA Paints (an Australian company). To get the desired effect, a metallic silver base coat was used, enhanced with a modest amount of medium coarse glitter, followed with multiple layers of candy until the correct shade was achieved. A high-quality automotive clear coat was used to finish off the paintwork.
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Richard Franklin’s Step-by-Step Guide to Pillar Bedding
The Art of Stress-Free Stock Bedding
by Richard Franklin
Richard Franklin prepared this article for our readers. Richard tells us: “I’m happy to do pillar-bedding work, but this is a job which many shooters can do themselves, with some practice and the right components. I do suggest you practice first on an old ‘beater stock’. When done right, you end up with a perfect fit of receiver to action, with no twisting, stretching, or compression forces being applied to the receiver through mis-alignment. That’s what I mean by ‘stress-free’.”
This article covers all the steps in the process. This bedding operation was shown in detail in a 200-minute DVD, “Stress-Free Pillar Bedding”, in which Richard showed the entire job — from start to finish — and offered many tips to help achieve perfect results. In this article Richard explains how to properly relieve the bedding area, how to make pillars, how to set up the barreled action, and how to test your work to ensure it is truly “stress-free”. In the DVD, Richard does a complete pillar bedding job on both a finished custom stock and a Remington stock.
[Editor’s Note: This article was first published a decade ago. So, some of the listed bedding materials may have been enhanced slightly, or the product names may have changed. But the procedures described by Richard are still valid and still achieve great results.]
Before You Begin — Some Comments About Inletting
Richard told us: “You can’t do a great bedding job unless you start with really good inletting. Unfortunately, many ‘inletted stocks’ really require quite a lot of work to get the inletting right. You cannot inlet a stock 100% correctly just using a stock duplicator. That’s one reason I do bedding jobs only on the stocks I make. If the inletting isn’t right, you can have a myriad of problems–such as the holes for the action bolts being in the wrong place, or the stock not having enough clearance for the barrel or the trigger hanger. So, BEFORE you start your bedding job, make sure the inletting is really right. Don’t assume the inletting is really complete (and correct) just because the manufacturer claims that to be the case. This applies to both wood and fiberglass stocks.”
Pillars For Bedding
The BAT action featured in this article has three pillars, with the middle pillar sitting under the front of the trigger guard, and the third pillar at the rear of the guard. More typical installations will use two pillars. For either system, the installation procedures are the same.
In Photo 1, you will see part A, the bottom part of the front pillar which we call the “escutcheon”. Part B, which is a 1/4″ X 28 action bolt that is slightly longer than part C which is the top part of the front pillar. The two parts of the front pillar were machined as one piece and then the escutcheon was cut off just below the shoulder that is inside. This shoulder is for the head of the action bolt to tighten up against. I’ve found that a two-piece pillar has many advantages, particularly for hunting stocks where the underside of the stock is angled (i.e. not parallel with bore axis). I make the pillars I use, machining them from cut-off stainless barrel stubs.
Part D is a 1/4″ X 28 hex-head bolt with the head turned down to 1/4″ which permits the insertion of a hex-head driver to tighten and remove the bolt. This headless bolt will be inserted in the rear tang hole of the action and part E, the rear pillar will be placed on it.
STEP ONE — Getting Started
Photo 2 shows tape on recoil lug, pillars bolted in place and putty in voids. Release agent is polished to a very thin layer. The top half of the front pillar (part C) is placed on the action receiver ring and the bolt (part B) is inserted thru the pillar and tightened against the action. This bolt must have a tapered head on the underside so that, when it is tightened, it will center the top half of the front pillar around the action bolt hole. (This is also true for the middle pillar if the action has a middle bolt.)
PHOTO 2
The headless bolt is inserted into the rear tang hole of the action and the rear pillar is slipped down on it. You will notice in Photo 3, below, that the pillars have the hole drilled oversize so that a 1/4″ bolt has a little space around it. (I like to drill the pillars with a .260″ bit inside.)
The above scenario is the placement of the pillars prior to applying the bedding compound, which I call “Mud”. Devcon 10110 is my bedding compound of choice (and the only product I use) as the mud must set up as hard as concrete and most other epoxies will not do this. Also Devcon shrinks very little if at all. My comments on other bedding compounds are in the sidebar below.
STEP TWO — Relieving the Stock Before Bedding Relieving the right amount of wood in the area to be bedded–not too much, not too little–is very important to achieving the best results. You need to create some space for the mud to fill around the action, but you don’t want to alter the inletting too much.
PHOTO 3
Photo 3 shows the wood removed from the inside of the stock bedding area. Remove enough wood everywhere except along the top sides of the stock to allow at least 1/8″ to 3/16″ of room for the mud. Remove 1/4″ of wood behind the recoil lug. I like about .012″ clearance on the top inside edges.
NOTE: Leave a small area of original wood just behind the rear tang bolt hole as this wood will determine the elevation of the bedded action in the stock.
Photo 4 shows the tang area of the stock. Note the elevation wood left at tang. Be sure to leave some original wood for the action tang to sit on. This is very important.
STEP THREE — Wrapping Tape on the Barrel Photo 5 shows the barreled action in the vise. It also shows black electrical tape wrapped around the barrel just behind the front of the stock forearm. Wrap enough tape to hold the front of the barreled action at the proper elevation in the stock.
The idea is that the barreled action does not touch anything except the bit of original “elevation” wood left at the rear tang (behind the pillar) and the forearm resting on the electrical tape. This is very important to obtain 100% stress-free bedding. You want the bore of the barrel to be parallel with the top edge of the stock so wrap just the right amount of tape to ensure this. The tape also centers the barrel in the fore-arm. Done right, the barreled action will be contacting just at two points (tape in front, tang in rear) and the barrel’s bore will be parallel with the top of the fore-arm’s sidewalls.
Comments on Alternative Components and Methods
Bedding Compounds
There are at least a dozen popular products used for rifle bedding. At one time or another, Richard has tried most of them. Devcon 10110 “Plastic Steel® Putty” is the only compound he currently uses and the only product he endorses whole-heartedly. “The Devcon 10110 is expensive, but it is the best bedding product I’ve found. First, it sets up extremely hard. That is very important to the performance and longevity of the bedding job. You want it to get it as hard as concrete. You need it really hard so when you tension the action screws it doesn’t squish down or migrate. Some of the brown stuff other folks use is way too soft. Marine Tex is also too soft. Many products will shrink. Any compound that shrinks is useless in my book. Devcon has absolutely near-zero shrinkage. Acra-Glass I keep in my shop, as it is useful for stock repairs. However I would never bed with Acra-Glass.
Devcon also has just the right consistency — about that of peanut butter. So, it is easy to apply but not runny. It stays in place when I turn the stock upside-down. Devcon is also relatively forgiving to mix–the proportions of the two elements are not super-critical like some other products. I know Marine-Tex can give real problems if you don’t use just the right amount of catalyst. Overall, Devcon does everything you need it to do, and does it exceptionally well. Some other smiths think it’s too expensive–and yes I’ll use $10-$15 worth of Devcon in doing a typical bedding job. But I think the customer deserves the best possible, longest-lasting bedding, and that means Devcon. Among the products I’ve used, Bisonite is my second choice, but I think Devcon will last longer.”
Release Compounds
Richard tells us: “People use all sorts of release compounds and I’ve tried many. I strongly prefer Kiwi shoe polish (neutral color). With the Kiwi, I’ve never had an action stick in the stock. It goes on easy, and you can use a paper towel to polish it very thin and that’s a big benefit. If you have a thin layer of release compound the finished bedding is that much closer to the exact dimensions of the action. I’ve heard of guys using PAM spray. I don’t trust that stuff. The Brownells release compound goes on too thick. Car wax is not a great choice either because it can separate and it gets dusty as it dries. Go with the Kiwi stuff–a little can will last for years. But be sure to use the clear (neutral) kind so you don’t stain your stock or action.”
Clamping and Tension Materials
Read a few articles on pillar bedding and you’ll see many different systems for holding the barreled action to the stock when the bedding compound cures. We’ve seen surgical tubing used, or strips of bicycle inner tube. Some writers have even advocated using mechanical clamps (a bad idea). Richard has tried various tensioning set-ups over the years, and electrical tape is his strong recommendation: “First, let me say it’s crazy to use a C-Clamp or something like that. The clamp will cause a point-load where it attaches and that is just the opposite of what you want.”
Richard has tried many materials: “Surgical tubing I’ve found to be cumbersome to use, and it tends to loosen up during the curing time. Same thing with strips of inner tube. That’s bad news because any loosening or stretching will allow the action to shift. It’s absolutely critical that the action not move one bit while the bedding cures. Once you’ve bedded the action if it dries the wrong way you’ve screwed everything up. Using the electrical tape that isn’t an issue. The tape goes on very tight, doesn’t stretch (if you use enough turns) and I have no fears that the action will shift while curing. Just follow my advice and put a strip of paper towel under the electrical tape so you don’t mar the finish of the barrel or stock.”
Contoured vs. Straight (Flat-top) Pillars
Many factory rifles come with contoured (radiused) pillars, and many gunsmiths prefer to use these. The idea is that the contour provides a better fit with the bottom of round actions. Richard has tried contoured pillars and doesn’t recommend them. He explains: “Most of the contoured pillars don’t really match the contour of the action anyway. And every action is slightly different. Even some of the most favored custom actions aren’t exactly the same from one unit to another. What happens when the contour or curve of the pillar is too narrow is that the action touches just the extended top edges of the pillar (left and right of center). That is not as solid as when the action contacts the center of the pillar where the action screw runs. (And those sharp sides of curved pillars tend to point-load and dig into your action.) Also I feel you get a better match of the Devcon to the action with flat-top pillars. What you want is the bedding compound to cradle the action all the way around. I’ve found this works best with flat-top pillars and a very strong, hard compound like Devcon that doesn’t squish down or shrink.”
STEP FOUR–Applying Release Agent and Plumbers Putty
Failure to apply release agent (and putty) properly is a recipe for disaster. One of the most common mistakes novices make when doing bedding jobs is locking in the action. This happens by not covering enough of the action with release agent, not taping off the lug correctly, and not adding putty to plug any slots or spaces into which the mud can migrate. Remember, you are doing a bedding job, not a glue-in job! When you’ve completed the process, you want to be able to pop the action loose without difficulty.
PHOTO 6 — Showing putty and release agent before polishing, tape on lug.
First, remove the trigger, bolt release and spring, and anything else from the bottom of the action. Then, clean the action and recoil lug area with brake cleaner or parts degreaser. Apply plumbers’ putty to any hole or crevice that you don’t want the mud to get into. Wrap two layers of masking tape on the outside edges of the lug and trim with a razor blade. Do not apply tape to the front or back of the lug. (Apply tape to the front of the lug only if you do not have a way to remove the hardened mud). Let this tape go right around to the top of the action. Wipe the putty smooth with the brake parts cleaner. I highly recommend neutral Kiwi shoe polish as release agent. Apply liberally to the entire action using a Q-tip to get in around the lug (including front and rear of lug), bolt handle slot and loading port edges. Let the shoe polish dry for 10 minutes and then use a paper towel and buff and polish the release agent as thin as possible. You want any release agent to be as thin as possible so as to let the action set as close as possible to your bedding. You also want to apply release agent to the rear (headless) bolt.
STEP FIVE — Installing the Pillars
Now is the time to place the pillars. Screw the top half of the front pillar and middle pillar (if the action has a middle bolt) to the action with the tapered head bolt. Screw in the headless bolt and slip the pillar down around it. Apply release agent to the area of the guard around the rear bolt hole (and to the rear headless bolt). Apply top and bottom and from the inside out. We don’t want the guard stuck to the bedding. (This guard sits on the bolt head that is secures the middle pillar to the action. We need the guard in place to align the action in the stock.)
Install the trigger guard back in place on the stock as the guard is used to align the barreled action in the stock. Now is the time to make a trial run to ensure that everything fits properly. Slip the upside-down stock down over the pillars with the headless bolt coming up through the rear bolt hole in the guard. See Photo 7. Ensure that the stock is resting on two spots only–the tape you’ve wrapped around the barrel, and the little bit of wood you left behind the tang bolt. Ensure there is room everywhere around the action to accept the mud. The barreled action cannot be touching anywhere except the tape and the tang. Not even on the top edges of the stock.
STEP SIX — Applying the Mud
Mix up a generous portion of the Devcon 10110 Mud and apply to the pillars as shown in Photo 8. Do not get mud on top of the bolt head and front pillar(s). Do apply a little mud on top of the rear pillar and if a little gets on the headless bolt that is OK as you should have applied release agent to this bolt. This will properly bed the guard to the rear pillar. The front bolt that holds the front pillar need not have release agent applied to it. Note, as shown in Photo 8, each pillar has a bolt inserted.
PHOTO 8 — Showing mud on the pillars.
You cannot use too much mud as the hydraulic action of pressing the stock down on the barreled action is going to squeeze the mud everywhere it need to go and the excess will be forced out (falling on the floor for you to step in).
PHOTO 9 — Showing mud applied to stock.
Now apply the mud very generously to the stock as shown in Photo 9 above. If I am not bedding any portion of the barrel shank I will only apply a little mud behind the recoil lug area.
STEP SEVEN — Assembly and Compression
Now slip the upside-down stock down over the pillars as you did in the trial run. Ensure the stock is bottomed-out on the tape at the front end. Squeeze slowly, pressing the rear of the stock down and squeeze out the excess mud. After pressing the stock down, the action area should appear as in Photo 10. During the compression stage, stop a few times and use Q-tips to clean off the excess mud that is squeezing out between action and stock.
PHOTO 10 — Rifle right side up, with the mud squeezed out.
Cut a piece of paper towel about two inches wide by the length of the towel. Lay this on the stock 1.5″ in front of the action. Wrap black electrical tape around the stock and barrel, running the tape over the strip of paper towel. (The towel is to protect the stock finish.) Squeeze the stock and action together while taking wraps with the tape. If you have a skinny, pencil-thin barrel don’t apply too much pressure with the tape as the weak barrel can be curved slightly. That can cause the barrel to touch the stock when everything is done (not good). If you have a big, fat barrel don’t worry about deflection. With a heavy contour tube, whatever bend you put in the barrel will spring back when the tape is removed.
STEP EIGHT — Mud Removal and Curing Time
Using Q-tips, clean up very thoroughly around the front pillar and the bolt head. You need to be able to unscrew the bolt to separate the stock from the rifle and you do not want the bedding protruding above the pillar. (The escutcheon still has to have room to fit in there without touching the end of the pillar.) Before turning the rifle right-side-up, reach under with a few Q-tips and clean off the mud hanging there as it may get inside the action.
Turn the rifle right side up in the vise and, using lots of Q-tips, clean all of the mud off of everything. Remove the excess mud every place you can see it. Use a paper towel to wipe the stock as there could be some invisible mud hiding somewhere on the stock or action. After using Q-tips, I sometimes use Butch’s Bore Shine solvent. It does a good job of removing the mud residue (other solvents with ammonia would work well also).
When you’ve cleaned off all the excess mud. It’s time to let the bedding cure. Lie the rifle upside down with the weight on the rear of the action and about where the tape is on the barrel. Let the gun sit for about 8 to 10 hours or overnight. IMPORTANT, you should remove ALL the excess mud around the action before you let the rifle cure for this time period. Photo 11 shows the rifle upside down, but you want to have the excess mud cleaned off before curing.
PHOTO 11 — Position for curing the mud–but excess should be removed first.
IMPORTANT: Avoiding Mechanical Lock During Bedding
One major problem that can arise when novices bed their own stocks is mechanical lock. This occurs when some part of the action or barrel is trapped below the bedding. Effectively, the barreled action becomes anchored in the stock and can be very difficult to remove. Richard says avoiding mechanical lock is not that difficult, but you must be careful: “Locks usually occur because the bedding is applied too far up. Never, and I repeat, never, bed above the centerline of the action (bore axis), or the widest point of the action (whichever is lower). You need to leave the edge of the bedding at least 1/16″ below the centerline of the action and centerline of the bore axis. I normally leave about 1/8th of vertical clearance. If the widest point of the action is BELOW the bore axis, you have to keep the bedding below that. The other thing to watch out for are projections and holes in the sides of the action. All holes must be filled with plumbers’ putty. All projections–anything that sticks out–need to be removed. If some little part or fixture sticks out, even if you tape it over, and it is below the top of the bedding, it can lock the action in.”
STEP NINE — Popping the Barreled Action Loose
After the required curing time, you need to remove the barreled action to check the beading and fit the pillar escutcheons. If you cleaned away all the excess mud and there are no mechanical locks in the bedding, it should not be difficult to pop the stock loose. You can see how this is done in the short Video Clip from my DVD (Right-Click and “Save As” to download). Here is the procedure.
After the mud has set up and hardened, clamp the barrel in a vise with the gun upside down. The vise should camp just ahead of the forearm. Remove the bolt in the front pillar (and middle pillar) and the headless bolt. Remove the trigger guard.
With the left hand, apply upward pressure to the forearm and then with the right hand slap upward on the forearm. You will hear a crack like you might have busted the stock. Not to worry, that is just the bedding popping free. Now wiggle the stock up off the recoil lug as it is the only thing holding the stock down. [Editors Note: Here’s an older video clip that shows Richard “popping” the stock loose from the barreled action. CLICK HERE to download a 6 Meg Windows media file, or click these links for MPEG (2.3 megs), and Real Media (2.3 megs) versions.]
Remove the tape from the barrel and recoil lug and clean up the putty. Wipe the action down with brake parts cleaner. On the stock, remove the squeezed mud that went into the trigger and bolt release area. Relieve the lug area on both sides and the front. Lay the stock back on the barreled action. Be sure to check under the trigger guard to see if any cleanup of mud is required there. Then re-install the guard and insert the rear action bolt just snug (not tight).
STEP TEN — Installing the Pillar Escutcheons
Pillar escutcheons are a nice extra feature I add to my custom rifles. These are stainless, made from barrel stubs. The two-part front pillar is originally machined as one piece. I believe front pillars with the escutcheons (or outer ring) offer advantages over conventional pillars in terms of strength and alignment.
Before you actually install the escutcheons, you need to do some fit testing. Have a trial run at setting the front bolt to the proper length by placing the escutcheon in the hole and screwing in the bolt. Loosen off the back bolt to see if the bolt that is thru the escutcheon is holding the stock firmly in place. Retighten the rear bolt a wee bit.
Apply release agent to the front bolt, being careful to not get it on the escutcheon. Insert an Allen wrench into the head of the bolt so you can hold it easily. Slip the escutcheon over the bolt. Apply mud to the escutcheon and around the bolt. Photo 12 shows how much mud to put on the escutcheon. You want enough so when you tighten the bolt it will force the mud everywhere it needs to go, even though a bit will be squeezed in around the bolt. Photo 13 shows how the escutcheon should look installed, with the bolt tightened. Photo 14 (below right) shows the escutcheon after the mud has been removed–be sure to remove the excess while the Devcon is still soft.
PHOTOS 13 and 14 — Showing escutcheon before (left) and after mud clean-up (right).
Clean up the excess mud with Q-tips and paper towels. You need to do this before the mud hardens. I used Butch’s Bore Shine as a solvent, once I have removed the excess mud with Q-tips and towels. When the escutcheons are cleaned up, you’ve finished working with the mud. Now let the stock lay for another 8 hours or so to allow the escutcheons to become.
After the mud has hardened around the escutcheon clamp the rifle back in the vise. Remove the back tang bolt first then the front bolt that is through the escutcheon. The bolt will be tight in the hole and sometimes may need to be punched out with a punch unless it has threads right to the head in which case it will screw out. Go in the hole with a .260” bit and clean the mud out of the front pillar. Let the bedding harden for a day or two and then torque the bolts with about 35 inch-lbs of torque on the front bolt and maybe 25 on the tang bolt.
The finished result is an even coat of Devcon with no voids, air pockets, fissures, and perfect stress-free support for the action, as shown in Photo 15.
Jim Borden, the very knowledgeable owner of Borden Accuracy, provided an interesting historical insight about barrel fitting and the term “blueprinting”. Jim has posted on his Borden Accuracy Facebook page an explanation of the term “blueprinting” as it originally was used with respect to barrel/shoulder/lug fitting.
Barrel/Shoulder Fit and Blue-Printing
Jim told us: “Something often overlooked on barrel installation is the shoulder fit. Many are so overly obsessed with doing a crank-on fit of threads that the shoulder contact is overlooked. Full, solid barrel shoulder to recoil lug or action face is critical to optimum accuracy and precision.
Many years ago part of the ‘blueprinting’ of an action was the use of Prussian blue to ‘blueprint’ lug fit, thread fit, and barrel shoulder fit. It was a colloquial expression that had nothing to do referring to a blueprint or drawing of the action.” Bet you didn’t know that!
About the photo below, Jim noted: “the fuzzy look on the threads is a liberal coating of Never-Seez thread lubricant.”
Look carefully to see the Prussian Blue applied to the barrel shoulder, plus Never Seez on threads.
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Today’s Saturday video showcase includes multiple video reviews of some of new rifle and pistols introduced in recent months. There are some impressive new rifles, and a score of new pistols both for CCW and competition.
Ten New Guns Revealed for 2025
This video features an interesting collection of new rifles and new handguns. Rimfire rifle fans should check out the Bergara BMR .22 LR rifle, while hunters will like the fast-cycling Beretta BRX1 straight-pull rifle. Among the pistols covered in this video, the Kimber KD9SC has nice features and 1911-style ergonomics.
Notable covered guns shown in the above video:
Best New Bolt-Action Rifles in Review
If you are looking for a new affordable hunting or varmint rifle, this video is a good place to start. It features 14 bolt-action rifles from a wide variety of manufacturers including Barrett, Bergara, Browning, CVA, Ruger, Savage and more. There is good video footage showing rifle details and features.
1. Dark Mountain Arms (DMA) Stowaway
2. Bergara MG Micro Lite
3. Taurus USA Expedition
4. CVA Cascade SR-80
5. Stag Arms Pursuit
6. Barrett MRAD ELR
7. Browning X-Bolt 2 Pro McMillan
8. Bergara B14 Wilderness Sierra
9. Beretta BRX1
10. Savage Arms KLYM
11. Ruger American Rifle Gen 2
12. Bespoke Gun Phantom
13. CVA Cascade LRH
14. Best of the West Stealth
New Rifles and Shotguns
This video covers both rifles and shotguns. Featured first is the CMM BR4 semi-auto rifle that complies with state restrictions while offering AR-style functionality. This is followed by a report on the Browning X-Bolt 2 rifle with muzzle brake. Next is the SIG Sauer MCX military-style rifle, followed by a Browning A5 shotgun. There are five other featured long guns reviewed by this video for nine in total (see list below). NOTE: The video title claims 13 guns are reviewed, but there are really only 9 specific stories:
Smith & Wesson M15
HM Defense HM 50B
Beretta BRX 1
Wilson Combat AR
(multiple models)
New Handguns including CZ Shadow 2 and Taurus 608 Revolver
This video is mostly manufacture-supplied PR material but it does cover a variety of interesting new handguns: CZ Shadow 2 Target; Savage Stance XR; Kimber CDS9; Taurus 608 Competition Revolver; and Tisa PX 5.7. That CZ Shadow 2 Target pistol has attracted much attention, with some good reviews. The Firearm Blog says the new Shadow 2 Target may be the most accurate CZ pistol ever made. With a $2600 price it better be good! If you compete in action pistol matches, the CZ Shadow 2 could take you to the next level… but that price is daunting.
Best New Lever-Action Rifles for 2025
Lever-action rifles are enjoying a significant growth in popularity. For 2025 Savage has introduced the Revel Classic and Revel DLX rimfire lever-action rifles in .22 LR, .22 WMR, and .17 HMR chamberings. This video covers other new lever guns including: Bishop Firearms 1895 GBL (01:00), Smith & Wesson 1854 (02:22), POF USA Tombstone (03:54); Browning BLR (05:26); Winchester 1892 DLX Octagon (06:50); Henry Big Boy X (08:25); Marlin 1895 Dark Series (10:00).
Leading New Air Rifles for 2025
Whether you’re a hunter, target shooter, or just love high-quality air guns, this video is worth watching. The title refers to five rifles but it actually covers six notable, recently-introduced air rifles, showcasing performance, accuracy, and features. From budget-friendly options to high-end precision models, the video covers six air rifles with performance stats and real-world testing. The reviews include pros/cons and features of each model: BRK Pathfinder XR Green (00:55); FX Impact X4 (02:20); Gamo Riser Punisher (03:56); Umarex Zelos PCP (05:20); BRK Ghost Silver (06:54); and Hatsan Jet 3 (08:19).
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One Shooters’ Forum member asked: “What makes an AR accurate? What parts on an AR can really affect accuracy — such as free-floating handguards, barrels, bolts, bolt carriers?” He wanted an honest, well-informed answer, not just sales pitches. Robert Whitley posted a very detailed answer to this question, based on his experience building/testing scores of AR-platform rifles. Robert operated AR-X Enterprises, which produced match-grade uppers for High Power competitors, tactical shooters, and varminters.
Building an Accurate AR — What is Most Important
by Robert Whitley
There are a lot of things that can be done to an AR to enhance consistent accuracy, and I use the words “consistent accuracy” because consistency is a part of it (i.e. plenty of guns will give a couple great 5-shot groups, but won’t do a very good 10- or 20-shot groups, and some guns will shoot great one day and not so good on others).
Here are 14 key things we think are important to accuracy.
1. Great Barrel: You’ll want a premium match-grade barrel, well-machined with a good crown and a match-type chambering, true to the bore and well cut. The extension threads must also be cut true to the bore, with everything true and in proper alignment.
2. Rigid Upper: A rigid, heavy-walled upper receiver aids accuracy. The typical AR upper receiver was made for a lightweight carry rifle and they stripped all the metal they could off it to make it light to carry (which is advantageous for the military). The net result are upper receivers that are so thin you can flex them with your bare hands. These flexible uppers are “strong enough” for general use, but they are not ideal for accuracy. Accuracy improves with a more rigid upper receiver.
3. True Receiver Face: We’ve found that truing the receiver face is valuable. Some may argue this point but it is always best to keep everything related to the barrel and the bore in complete alignment with the bore (i.e. barrel extension, bolt, upper receiver, carrier, etc.).
4. Barrel Extension: You should Loctite or glue the barrel extension into the upper receiver. This holds it in place all the way front to back in the upper receiver. Otherwise if there is any play (and there typically is) it just hangs on the face of the upper receiver completely dependent on the face of the upper receiver as the sole source of support for the barrel as opposed to being made more an integral part of the upper receiver by being glued-in.
5. Gas Block: You want a gas block that does not impose pointed stress on the barrel. Clamp-on types that grab all the way around the barrel are excellent. The blocks that are pinned on with tapered pins that wedge against the barrel or the slip on type of block with set screws that push up from underneath (or directly on the barrel) can deform the bore inside of the barrel and can wreck the accuracy of an otherwise great barrel.
6. Free-Float Handguard: A rigid, free-float handguard (and I emphasize the word rigid) really makes a difference. There are many types of free-float handguards and a free-float handguard is, in and of itself, a huge improvement over a non-free-float set up, but best is a rigid set-up. Some of the ones on the market are small diameter, thin and/or flexible and if you are shooting off any type of rest, bipod, front bag, etc., a rigid fore-end is best since ARs want to jump, bounce and twist when you let a shot go, as the carrier starts to begin its cycle before the bullet exits the bore.
7. Barrel Contour: You want some meat on the barrel. Between the upper receiver and the gas block don’t go real thin with a barrel (we like 1″ diameter if it’s workable weight-wise). When you touch off a round and the bullet passes the gas port, the gas system immediately starts pressuring up with a gas impulse that provides vibrations and stress on the barrel, especially between the gas block back to the receiver. A heavier barrel here dampens that. Staying a little heavier with barrel contour through the gas block area and out to the muzzle is good for the same reasons. ARs have a lot going on when you touch off a round and the gas system pressures up and the carrier starts moving (all before the bullet exits the bore) so the more things are made heavier and rigid to counteract that the better — within reason (I’m not advocating a 12-lb barrel).
8. Gas Tube Routing Clearance: You want a gas tube that runs freely through the barrel nut, through the front of the upper receiver, and through the gas key in the carrier. Ensure the gas tube is not impinged by any of them, so that it does not load the carrier in a stressed orientation. You don’t want the gas tube bound up so that when the gas tube pressures up it immediately wants to transmit more force and impulse to the barrel than would normally occur. We sometimes spend a lot of time moving the gas block with gas tube on and off new build uppers and tweaking gas tubes to get proper clearance and alignment. Most gas tubes do need a little “tweaking” to get them right — factory tubes may work OK but they typically do not function optimally without hand-fitting.
9. Gas Port Tuning: You want to avoid over-porting the gas port. Being over-gassed makes the gas system pressure up earlier and more aggressively. This causes more impulse, and increases forces and vibration affecting the top end and the barrel. Tune the gas port to give the amount of pressure needed to function properly and adequately but no more.
10. Front/Back Bolt Play: If accuracy is the game, don’t leave a lot of front/back bolt play (keep it .003″ but no more than .005″). We’ve seen factory rifles run .012″ to .015″ play, which is OK if you need to leave room for dirt and grime in a military application. However, that amount of play is not ideal for a high-accuracy AR build. A lot of front/back bolt play allows rounds to be hammered into the chamber and actually re-formed in a non-consistent way, as they are loaded into the chamber.
11. Component Quality: Use good parts from a reputable source and be wary of “gun show specials”. All parts are NOT the same. Some are good, some are not so good, and some aftermarket parts are simply bad. Don’t be afraid to use mil-spec-type carriers; by and large they are excellent for an accuracy build. Also, remember that just because a carrier says “National Match” or something else on it does not necessarily mean it’s any better. Be wary of chrome-plated parts as the chrome plating can change the parts dimensionally and can also make it hard to do hand-fitting for fit and function.
12. Upper to Lower Fit: A good upper/lower fit is helpful. For quick and dirty fit enhancement, an Accu-Wedge in the rear helps a lot. The ultimate solution is to bed the upper to a specific lower so that the upper and lower, when together, are more like one integral unit. For the upper receivers we produce, we try to get the specs as close as we can, but still fit the various lowers in the market place.
13. Muzzle Attachments: Don’t screw up the muzzle (literally). Leave as much metal on the barrel at the muzzle as you can. People like to thread the muzzle for a flash hider, suppressor, muzzle brake, or some other attachment, but if you really want accuracy, leave as much metal as you can there. And, if you have something that screws on, set it up so that it can be put on and have it stay there without putting a lot of torque and stress on it right where the bullet exits the bore. If you are going to thread the end of the barrel, make it concentric with the bore and make sure what you screw on there is as well. For all muzzle attachments, also ensure that the holes through which the bullet passes through are dead true to the bore. Many aftermarket screw-on things are not so good that way. Anything that vents gas should vent symmetrically (i.e. if it vents left, it should vent equally right, and likewise, if it vents up, it should vent down equally). Uneven venting of gas can wreck accuracy.
14. Quality Ammunition: Ammo is a whole story by itself, but loads that are too hot typically shoot poorly in an AR-15. If you want accuracy out of an AR-15, avoid overly hot loads. Shown below are test groups shot with four (4) different uppers, all with moderate loads. These four uppers all pretty much had the same features and things done to them as explained in this article, and they all shot great.
Robert Whitley
6mmAR.com
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Gun-maker Bear Creek Arsenal has a good article on its website about rifling barrels. The article explains four common methods of rifling the interior of barrels: Cut Rifling, Broach Rifling, Button Rifling, and Hammer Forging. In addition, the article describes a new (and somewhat radical) method, Cation Rifling, which employs acid to etch rifling. READ Full Article.
The main focus of the article is on Cold Hammer Forging of barrels. This requires massive, expensive tooling, but the results can be very consistent. Many top gun-makers, such as FN, HK, and Ruger, have used the hammer forging process. And now Bear Creek Arsenal also offers hammer-forged barrels. Bear Creek recently acquired two state-of-the-art cold hammer forging machines. With hammer forging, a chamber can be formed and barrel contour shaped at the same time. This process produces some of the most consistent barrels available today. Here is a summary of how Cold Hammer Forging works:
Cold Hammer Forging — Machinery and Process
A cold hammer-forged barrel starts life… as a short and fat blank with a polished hole running through the center. A hardened mandrel of proper width (caliber) and rifling pattern — again reversed/inverted — is placed into the smooth bore. The pair go into a forging machine that compresses the steel against the mandrel, hammering it into final shape. The barely detectable external spiral patterns that remain on some barrels are imprints from those hammers at work. Some companies polish them out, however.
Cold hammer forging machinery is very expensive, representing a significant investment for companies. However, when the hammer forging process is done and the mandrel removed, the resulting barrel is the proper length and profile with rifling that is consistent and butter smooth. No lapping is required — a time and expense saver — although a stress-relief step often follows.
The process takes place at room temperature, despite the misleading “cold” terminology. There is a hot hammer forging process, but the equipment is even more expensive and the slight improvement in grain consistency hasn’t proven advantageous enough for a return on that investment. Performance is impressive and consistent.
One of the biggest advantages of a cold hammer forged barrel is longevity. They… survive abuse and last longer. The manufacturing process adds those enviable virtues with each strike of those hammers — strengthening the metal in a work-hardening process employed by blacksmiths for centuries.
Comparing Popular Rifling Methods
What rifling process should you choose? If long-distance is your passion and you home brew custom cartridges to print tiny groups in the next zip code, cut rifling is the optimum choice. Button rifling is a solid second choice, but not always the Holy Grail long-distance shooters dream about. Cold hammer forged barrels, however, last longer and [offer great performance for the price.]
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Savage offers an innovative, versatile version of its popular A22 rimfire rifle. The Savage A22 Takedown separates quickly and easily into two units, with a simple quarter-turn (90-degree) rotation of the fore-end. This allows the A22 Takedown to easily transport in a pack when camping or hunting. Or stow the gun conveniently in your vehicle. Separating this A22 Takedown into two parts is as simple as a twist.
The Savage A22 Takedown ($479.99 MSRP, $370 average sales price) has some other cool storage features. The cheek-piece lifts up to provide storage for three, (3) 10-round rotary-style magazines. In addition, the A22 Takedown has a dry storage compartment in the pistol grip that can hold patches or other small accessories, such as earplugs.
What Are the Advantages of a Takedown Rifle?
The first big advantage of a takedown rifle is that it can be stored in a smaller space and you don’t need a long case to carry in the field. Fully assembled, the Savage A22 Takedown is 36.875″ long. As separated into two sections, each section is about 18″ long, so each segment can fit inside a small day-pack. When transported in a vehicle, the two segments may fit in an on-board storage area, or even in the spare tire compartment (with appropriate padding).
The Savage A22 Takedown rifle can also be transported in an ultra-short 24″ Discrete Carry Case that doesn’t look like a typical rifle case.
Assembly and Disassembly of Savage A22 Takedown
The Savage A22 Takedown can be separated into two sections in a matter of seconds. First make sure the gun is unloaded, the magazine is removed, and the bolt is pulled back and locked. Make sure the muzzle is pointed away from you, and the safety is activated. Double-check to make sure there is no round in the chamber! Then holding the gun horizontally, grab the fore-end and rotate one-quarter turn clockwise. Then ease the barrel/fore-arm section forward gently. This will expose the front of the action and reveal the .22 LR chamber in the fore-end section. You can see how this works in the video below.
To re-assemble the A22 Takedown, bring the fore-end towards the action with the rear sight at the 3 0’clock position (right of center looking towards muzzle). Push the fore-end back gently until is seats properly. Then rotate the fore-end 90-degrees counter-clockwise. Again, watch the above video to see this re-assembly procedure, starting at 00:27 time-mark.
NOTE: Savage provided these studio photos, but the magazine should be REMOVED before disassembly.
On-Board Storage Under Cheek-Piece and in Grip Section
The Savage A22 Takedown has two very innovative and unique storage systems built into the synthetic stock. First the cheekpiece is hinged at the front, and lifts up to reveal a special compartment that holds three (3) of the A22’s rotary magazines. This is a very clever design — unique among rimfire rifles we believe. In addition, there is storage area INSIDE the pistol grip. This is accessed by removing a detachable plastic cover that snaps into the bottom of the grip section.
Performance in the Field
With an 18″ barrel, expect your .22 LR rimfire ammo to deliver good velocities in the A22 Takedown. After some adjustment of the Accutrigger, other A22s we have shot have performed well and been reliable so long as you make sure to fully seat the rotary magazines. This would be a good starter rifle, and has unmatched versatility for easy packing. The weight, before optics, is just 6.3 pounds. One nice design feature is a sight channel in the Picatinny rail. The adjustable rear sight is attached to the barrel immediately forward of the action.
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Rifleshooter.com does some great original research — providing “hard data” you can’t find anywhere else. Here are the eye-opening results of Rifleshooter.com’s 6.5 Creedmoor barrel cut-down test. You may be surprised at the results. Read on…
What do you get when you cut a 6.5 Creedmoor-chambered barrel down to just over 16 inches? A lot more velocity than you might think. Our friends at Rifleshooter.com conducted a remarkable barrel cut-down test with 6.5 Creedmoor test rifle, shortening the barrel from 27 to 16.1 inches in one-inch increments. Surprisingly, with a 142gr Sierra MK, the total velocity loss (as measured with a Magnetospeed) was just 158 FPS, an average of 14.4 FPS per inch of barrel length. With the lighter 120gr A-Max bullet, the total velocity loss was 233 FPS, or 21.8 FPS average loss per inch of barrel.
Test Procedure
Five (5) rounds of each type of cartridge were fired at each barrel length and the velocity data was recorded with a MagnetoSpeed V3 barrel-mounted chronograph. The rifle was then cleared and the barrel was cut back one inch at a time from 27″ to just over 16″. NOTE: During this winter test, the air temperature was a very chilly 23° F. One would expect higher velocities across the board had the outside temperature been higher.
The photo below shows how the barrel was cut down, inch-by-inch, using a rotary saw. The barrel was pre-scored at inch intervals. As the main purpose of the test was to measure velocity (not accuracy) the testers did not attempt to create perfect crowns.
6.5 Creedmoor vs. Other Mid-Sized 6.5mm Cartridges
The 6.5 Creedmoor is a very popular cartridge with the tactical and PRS crowd. This mid-size cartridge offers good ballistics, with less recoil than a .308 Winchester. There’s an excellent selection of 6.5mm bullets, and many good powder choices for this cartridge. When compared to the very accurate 6.5×47 Lapua cartridge, the 6.5 Creedmoor offers similar performance with less expensive brass. For a tactical shooter who must sometimes leave brass on the ground, brass cost is a factor to consider. Here’s a selection of various 6.5mm mid-sized cartridges. Left to right are: 6.5 Grendel, 6.5×47 Lapua, 6.5 Creedmoor with 120gr A-Max, 6.5 Creedmoor with 142gr Sierra MK, and .260 Remington.
When asked to compare the 6.5 Creedmoor to the 6.5×47 Lapua, Rifleshooter.com’s editor stated: “If you don’t hand load, or are new to precision rifle shooting, get a 6.5 Creedmoor. If you shoot a lot, reload, have more disposable income, and like more esoteric cartridges, get a 6.5×47 Lapua. I am a big fan of the 6.5×47 Lapua. In my personal experience, the 6.5×47 Lapua seems to be slightly more accurate than the 6.5 Creedmoor. I attribute this to the quality of Lapua brass.” Now that Lapua offers 6.5 Creedmoor brass with small primer pockets, the 6.5 Creedmoor is even more attractive.
The creator of Rifleshooter.com also operates a Custom Rifle Building enterprise and gun shop in Long Island, New York: 782 Custom Guns Ltd.. He tells us: “We offer an unparalleled level of gunsmith machine shop services in the Long Island region. From precision rifles (USMC M40A3/A5/A6 XM3 clones) to customized Remington 870 and Mossberg 590 shotguns, and customized 1911s, chances are if you can dream it, we can build it!”
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While devotees of this site are hard-core accuracy addicts, who normally shoot tiny groups with sophisticated Benchrest and Varmint rifles, we should not overlook the pure fun of shooting a classic iron sights lever-action rifle at reactive targets. Lever guns are fun to shoot, easy to transport, AND they require a lot less maintenance than your modern black rifle.
Drilling a tight 1/4-MOA group is very satisfying. But for simple, basic shooting fun, it’s hard to beat a slicked-up, “race-ready”, Winchester-clone lever gun. In fact, this Editor’s favorite rifle for “fun shooting” is my 20″ Uberti Model 1866 “Yellowboy” Lever gun. Shooting low-recoil .38 Special rounds at steel targets from a standing position offers old-fashioned shooting satisfaction. When I invite a new shooter to the range, I usually bring the 1866 Yellowboy, and let the newbie shoot steel at 50 yards. New shooters (of all ages) love the look and feel of the rifle, and the low recoil. The typical response is: “Wow, that was fun!”.
My rifle features a slicked-up action and lightened trigger. After a “CodyMatic” action job by cowboy gunsmith Cody Conagher, my Yellowboy’s lever can be cycled with just one finger. Trigger pull is about a pound and a half. The high-gloss, blued octagonal barrel is very accurate and the mirror-finish bore cleans up easily.
Based on the Model 1866 Winchester, Uberti’s Yellowboy, and its Model 1873 “older brother”, feature a toggle-link action that is extremely smooth. The toggle action design also keeps the linkages separate from the chamber so the gun runs extremely clean. After firing 100 rounds or more, all you need to do is wipe off the bolt and breech-face with some solvent and run a bore-snake down the bore a few times. To be honest, the Yellowboy is more fun to shoot at steel than my AR Carbine. And maintenance-wise, for every five minutes I spend cleaning the 1866, I’ll spend an hour detail-stripping and cleaning the AR. The shooting-to-cleaning ratio favors the lever gun by orders of magnitude.
These Italian-made Winchester clones are very handsome, with nicely figured wood under a durable clearcoat. You can polish the brass receiver to keep it shiny, or leave it alone to develop an authentic, dulled patina. Uberti’s Model 1873 features a steel receiver with gorgeous color case-hardening.
After the fun factor, what’s the best thing about Uberti lever guns? Resale value. I can sell my 1866 for quite a bit more than I paid for it. Over the past decade, the price of Italian-made Uberti lever guns has been steadily rising. This means that older rifles fetch a premium on the used market.
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Jewell triggers are still the most-used triggers on competition benchrest and F-Class rifles and they are also popular for hunting, varmint, and tactical rifles (with or without safeties). While a Jewell trigger can work for years with minimal maintenance, if the trigger becomes gunked up, it may be necessary to disassemble the trigger for a thorough cleaning. Our friends Ed and Steve, aka the 6.5 Guys, have produced a helpful video that shows how to disassemble and then reassemble a Jewell trigger.
Why You May Need to Disassemble Your Jewell Trigger — the 6.5 Guys
Jewell triggers are a popular choice in the sport of long range precision shooting, and like everything else require regular cleaning and maintenance. In most cases they can be cleaned with charcoal lighter fluid or dropped into an ultrasonic cleaner. Should the situation require, they can be completely disassembled according to the Jewell Trigger Manual.
We ran into a situation where we had to dissemble a trigger due to the entrapment of some sticky dirt that couldn’t be removed with an ultrasonic cleaner. Our first step was to find some step-by-step instructions but we couldn’t find anything.
Recognizing that other shooters might be in the same situation we produced a step-by-step guide and video, published in full on 65Guys.com. These instructions will work with a left- or right-handed trigger. In our case we worked with a left-handed BR model trigger with safety and bolt release.
Step-by-Step Instructions are provided on 65Guys.com website. We recommend you read all the instructions carefully before you even think about disassembling your trigger. This video explains the process so you can get a sense of what is involved.
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The question of barrel break-in is controversial. Some folks advocate an elaborate, lengthy cycle of shooting and brushing, repeated many times — one shot and clean, two shots and clean and so on. This, it is argued, helps barrels foul less and shoot more accurately. Others say minimal break-in, with patching and brushing after 10-15 rounds, is all you need. Still others contend that break-in procedures are a total waste of time and ammo — you should just load and shoot, and clean as you would normally.
We doubt if there will ever be real agreement among shooters concerning barrel break-in procedures. And one must remember that the appropriate break-in procedure might be quite different for a factory barrel vs. a custom hand-lapped barrel. This Editor has found that his very best custom barrels shot great right from the start, with no special break-in, other than wet patches at 5, 10, and 15 rounds. That said, I’ve seen some factory barrels that seemed to benefit from more elaborate break-in rituals.
What’s the best barrel break-in procedure? Well our friend Eric Mayer of Varminter.com decided to ask the experts. A while back Eric interviewed representatives of three leading barrel manufacturers: Krieger, Lothar-Walther, and Shilen. He recorded their responses on video. In order of appearance in the video, the three experts are:
Do I Need to Break-In a New Rifle Barrel?
Eric Mayer of Varminter.com says: “That is a simple question, [but it] does not necessarily have a simple answer. Instead of me repeating my own beliefs, and practices, on breaking-in a new rifle barrel, I decided to answer this one a bit differently. While we were at the 2016 SHOT Show, we tracked down three of the biggest, and most popular, custom barrel makers in the world, and asked them what they recommend to anyone buying their barrels, and why they recommend those procedures. We asked the question, and let the camera run!” Launch the video above to hear the answers — some of which may surprise you.
Long-Term Barrel Care — More Experts Offer Opinions
Apart from the debate about barrel break-in, there is the bigger question of how should you clean and maintain a barrel during its useful life. Some folks like aggressive brushing, other shooters have had success with less invasive methods, using bore foam and wet patches for the most part. Different strokes for different folks, as they say. In reality, there may not be one solution for every barrel. Different fouling problems demand different solutions. For example, solvents that work well for copper may not be the best for hard carbon (and vice-versa).
“Why worry about a little barrel fouling when the throat is subjected to a brutal 5,600° F volcano at 55,000 PSI? To investigate these and other questions about taking care of a match barrel, we spoke with a dozen experts and share their knowledge in this first of a series of articles.
After listening to folks who shoot, build barrels or manufacture cleaning solvents for a living, we concluded that even the experts each have their own unique recommendations on how to care for a match barrel. But they all agree on one thing — the gun will tell you what it likes best. Because the life expectancy of a match barrel is about 1,500 to 2,500 rounds, the objectives of cleaning one should include: preserve accuracy, slow the erosion, and remove fouling — all without damaging the gun. This article doesn’t claim that one cleaning method is better than the next. Rather, we set out to interject a little science into the discussion and to share some lessons learned from experts in the field.” — Chip Lohman
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With inflation, the increased cost of .223 Rem centerfire ammo has driven more folks to shooting .22 LR rimfire ammo, both for fun and practice. Thankfully, handy conversion kits will let you shoot .22 LR ammo from your existing .223/5.56 AR-15 platform rifle. This allows low-cost training with no change in rifle balance, ergonomics, and/or optics.
The CMMG Bravo .22 LR Conversion Kit provides a replacement bolt/bolt carrier along with three 25-round magazines with special .22 LR-fitted followers and ammo slots. This allows you to shoot rimfire ammo from any AR-15 chambered for the .223 Rem (5.56×45). The CMMG Bravo has an integrated extension that fits into your current chamber. The rimfire bullet passes through this extension and then enters the barrel. This conversion kit is now on sale at Brownells for $172.99 with three 25-rd mags.
The CMMG Bravo conversion Kit comes with blowback-operated .22 LR bolt carrier, rubber protector for bolt carrier tip, and three 25-round polymer magazines. To use, simply replace the rifle’s .223 Rem bolt and carrier with the Bravo .22 LR conversion unit and load up the included magazine(s) with rimfire ammo.
To use the CMMG Kit, simply remove the centerfire bolt/bolt carrier, and replace it with the CMMG silver colored bolt shown above. CMMG states: “For best performance use a round-style hammer as notched hammers can cause function issues.” Testers have stated that high-velocity .22 LR ammo works best, and CMMG notes that “36gr plated-nose bullets have proven to be the best choice for function.” The copper-plated bullets help reduce fouling.
Ultimate Reloader Tests CMMG .22 LR Conversion Kit
Our friend Gavin Gear of UltimateReloader.com recently tested the CMMG .22 LR AR Conversion Kit. He observed that installation was very straight-forward and the CMMG magazines worked well. He and fellow tester Travis Fox shot the unit both slow-fire and rapid-fire successfully.
Gavin and Travis found the CMMG Kit easy to install and fun to use. With an AR that can shoot both .223 Rem and .22 LR, it’s like having “two guns in one”. Travis was impressed with the ease of use: “It is so simple to change over to the CMMG .22 LR AR kit! It took me about 68 seconds the very first time I tried. Each time after that it took me about 40 seconds — it’s that simple. It takes longer to fully load one of the mags than it does to switch over from .223/5.56 to .22 LR and back.”
The AR shot very well with the higher-velocity ammo types. 100% functioning was achieved with both 40gr Federal Game Shok ammo and American Eagle High Velocity 38gr Copper-plated HP ammo. NOTE: CMMG does recommend high-velocity Copper-plated rimfire ammunition.
Maintenance Tip — After converting back to your centerfire .223 Rem (5.56), Travis says “make sure to clean the gas tube and components as .22 LR tends to run dirty”. READ Full Test on UltimateReloader.com.
CMMG Bravo Conversion Kit Gets Thumbs Up from Gavin and Travis
“Does this conversion kit get the Ultimate Reloader stamp of approval? Absolutely! In these times of ammunition/component scarcity this gives options to shooters. Finding bulk .22 LR can sometimes be easier than 223/5.56. This kit gives that option at a great price. Any chance to keep skills up and familiarize new shooters to a platform is a good thing. Basically two rifles for a lot less than another rifle.”
How to Install CMMG Bravo .22 LR Conversion Kit
The Brownells video below shows the installation process step-by-step:
In this instructional video, a Brownells gunsmith demonstrates (step by step) how to install, disassemble, clean, lubricate, and reassemble the CMMG AR-15 .22 LR Conversion Kits. Clear the rifle and make safe before you start the conversion. Separate the upper and lower, remove the standard bolt carrier group. You then install the conversion bolt and connect the upper and lower as normal.
Details of CMMG .22 LR Conversion Kit
“For years I’ve had a CMMG conversion kit. It’s a drop-in system that’s … very reliable and it’s accurate. The [CMMG conversion] has lower recoil [and is] great for training. Even though ammo prices have gone through the roof, .22 LR is still cheaper to shoot than anything else.” — SootchGear
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