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Posted: 1/24/2006 1:25:23 PM EDT
[Last Edit: Dano523]
I wrote this the other night in response to another post, but I think it's good enough to have it's own post.
Randall's description of AR gas operation and how everything works in harmony. I have not written this up in a while and some day I really need to build a whole page dedicated to it. This is just off the top of my head. Much of it comes from Rick McDowel (competetion specialties) when I was first learning AR's & from Tweak along the way and my own experiences mixed in along the path to enlightenment. Ok, starting with a cartridge in the chamber, hammer back. Trigger lets the hammer fall. Hammer hits the firing pin, driving it forward. Firing pin drives the primer (and attached cartridge case) forwards in the chamber until the shoulder in the chamber stops the shoulder on the cartridge case. The case will already be seated against the shoulder due to ejector tension, but the primer can sometimes move before the anvil legs on the primer stop against the primer pocket. Headspace is the distance from the bolt face to the head of the cartridge when fully seated in the chamber. Headspace gauges account for the length of the cartridge AND for the recommended amount of headspace, but what really matters is the amount of space, or lack there-of, of space between the case head and bolt face. The firing pin continues forward to ignite the primer. Primer flash ignites powder charge, instantly creating great pressure within the cartridge case. Cartridge case expands first outward towards chamber walls (path of least resistance) where pressure holds the case in place and then the case stretches backward until the case head is stopped against the bolt face. Here is WHY long headspace makes cases fail! Bullet begins movement down the barrel, first encountering the throat. Here is why you want a throat DIAMETER closely matching the bullet. More about throat dimensions can be found here: www.ar15barrels.com/data/223-556.pdf Loose throats do not control the bullet and keep it as straight while engraving into the rifling. Now the bullet has obturated and engraved into the rifling and it's accelerating rapidly down the bore. As it passes the gas port, gas begins to flow into the gas block where it turns and heads towards the bolt carrier via the gas tube. The pressure is still high in the barrel, usually 15,00PSI+ until the bullet leaves the muzzle. Just as the bullet leaves the muzzle, gas escapes around the base of the bullet. Here is why a proper crown is important. Gas is traveling about 5x faster than the bullet when it leaves the muzzle. An even crown releases gas all the way around the bullet at one time. An un-even crown lets gas go on one side first. This can tip the bullet just slightly sideways at the moment the bullet is released into the air. This is a very important time in the bullet's flight. Now, remember, high pressure gas always follows the path of least resistance, which is now out the front of the barrel instead of into the gas system. Barrel pressure drops immediatly. During the bullet's travel down the bore between the gas port and the muzzle, we had a metered amount of gas fed to the action. This gas does the following: Upon reaching the gas key bolted to the top of the carrier, it turns down into the bolt carrier where it is given a nice place to expand. This is the area inside the bolt carrier where the bolt lives. Gas expanding here forces the bolt carrier back AND the bolt forward. Note that the bolt is also being forced BACK by the gas pressure expanding the cartridge case on the other side of the bolt. For a short moment in time, these forces are about equal. Ideally, this is while the bolt lugs are unlocking and before the extractor starts pulling on the case. The bolt carrier starts to move backwards against the inertia of the carrier's weight, the buffer's weight and the operating spring. All of these effect timing, that's why we have different weights of carriers, standard, heavy (H), H2, H3 etc. The next thing the carrier encounters are the cam surfaces against the cam pin. Of course we know that the cam pin goes through the bolt. Rearward movement of the bolt carrier causes the bolt to rotate. (pay attention here, this is the meaty part) Here is where timing comes into play. Let's make a couple assumptions here before we continue. Trust me that pressures in the case hold the case into the chamber, even though the chamber is slightly tapered. Also trust me that when you release all the pressure out the front of the barrel that the cartridge case will spring back down to size so it's no longer a tight fit in the chamber as it was with the gas pressure present. Here's where timing comes into play. We want the bullet to be out of the front of the barrel AND the pressure to have subsided enough that the case shrinks down BEFORE the bolt lugs are unlocked because when the pressure is high, the case WILL try to stay in the chamber. Now is the perfect time to point out that one sure sign of high pressures are the fact that the case extrudes into the ejector plunger hole on the bolt and the resulting pressure unlocks the bolt while pressures are still high. This extruded brass gets wiped off the end of the case head, leaving a shiney spot and the brass usually makes it's way under the extractor, later causing extraction problems we will get to in a little bit. Now back to extraction, normal/correct version: Pressure subsides, bolt unlocks, carrier momentum continues rearward, pulling the fired (and contracted) cartridge case from the chamber. As the cartridge case reaches the ejection port, the case pivots on the extractor hook from pressure of the ejector until it is sent flying free of the rifle. The bolt carrier continues backward while re-cocking the hammer until operating spring pressure or the buffer stops it. Operating spring returns the bolt carrier forward where it strips another round from the magazine up the feedramps and into the chamber. Cartridge stops in the chamber, bolt continues forward, causing the extractor to snap over the rim of the cartridge case. Bolt finally stops against the case head, but the carrier continues forward. The cam surfaces in the carrier now cause the bolt to lock into battery again. Now we are back where we started. Now for extraction, the WRONG ways. First, too much gas(most common): The bullet has not left the barrel yet, but it's past the gas port. Too much high pressure gas is rushing into the carrier, causing it to move rearward faster then desired and unlock the bolt from the extension. Pressures are still high so the cartridge case is NOT ready to be extracted yet. The carrier's momentum continues to pull backward, but the pressures in the case actually hold in in the chamber. This causes a hiccup in the carrier's momentum. Depending on the severity of the timing, several things can occur: #1 The (weak) extractor spring allows the extractor to jump over the rim of the cartridge and the bolt carrier continues rearward, grabbing the next round and causing the classic "fired case in chamber, live round behind it" FTE. The brass shavings under the extractor usually contribute to this one as well. #2 The extractor does NOT slip off the case, but keeps pulling. The extractor is strong enough to RIP the rim right off the case. Same result as above, but MORE brass shavings everywhere from ripping case rims off. #3 The extractor does NOT slip off the case, but keeps pulling. During this pulling, the bullet has JUST left the bore, pressures recede and the case shrinks down, allowing extraction. The rest of the cycle goes as normal, but you have strong pull marks on the case. Recoil will be higher than normal when the carrier is allowed to travel to the end of the buffer tube and bottom out swiftly against the end of the buffer tube. In normal operation, the buffer just kisses the end of the tube. Somewhere between here and the next section, we have proper operation. Lastly, not enough gas(less common): The bullet is out of the bore, pressure is subsided, case is extracted and on it's way to ejection. Depending on the severity of the lack of gas, the bolt carrier may not even get the case out of the chamber before the operating spring returns it forward. Adding more gas, the case just barely gets out of the ejection port, but the bolt grabs it on it's way forward, classic stovepipe. Add more gas and the cartridge clears the action, but the bolt does NOT get far enough back to strip a round from the mag. This is classic short stroking. You have a single shot action which extracts and ejects, then closes on an empty chamber after you fire it. In this condition, the bolt will also ride over an empty magazine and close on an empty chamber. Add some more gas and you will reach the point where it feeds from the magazine and ALMOST works properly, but it still closes over an empty mag. This is two things, first, poor mag springs are not pushing the follower up fast enough to catch the bolt and second, the bolt is not quite making it back far enough to catch on the magazine follower. Add just a little more gas and you are back to proper function. Now, take note, that a lack of gas in a rifle that was functioning fine before can be from several things: Gas key screws poorly staked and they loosened up, allowing some gas to escape instead of doing it's job INSIDE the bolt carrier. Gas ring gaps are aligned, gas rings missing or broken, allowing extra gas to flow past them. Gas block/front sight base is loose, allowing gas to escape before it even gets down the gas tube. Gas tube "mushroom" is severly worn, probably because it was not properly aligned with the gas key and gas is escaping there. Please note that failure to extract/eject is a symptom of EITHER too much or too little function of the action. FTE alone is not enough information to decide what to change to fix the problem. You need to look for other signs such as the excessive recoil and case rim pulling of too much gas or the short stroking of too little gas. Unfortunately, many guys who don't understand the magic above always ASSUME that they have too little gas. What do they do? They open up the gas port. Following the examples above, you can see this only makes the problem worse. Lesson to be learned: Follow the published troubleshooting procedures. They are written that way for a reason. Whew, that was longer than I expected to write. Hope it all sinks in and you can benefit from it. Edited 2-3-06 to add more about gas port pressures: We often hear about mid-length being smoother cycling or pistol being harsher cycling than the typical carbine length gas systems. Below is a plot of a 223 load. I have noted the locations of the various gas ports in blue. You can plainly see what pressures are introduced into the gas systems when the bullet JUST passes the gas port. This is the reason for the way the various gas system lengths function differently. Projectile travel at the bottom assumes that the bullet starts out about 1.5" from the breech, so add 1.5" if you want to compare velocities at different lengths. Note: the site that these photo's were linked to has been disconnected, but am searching to see if I can retrieve them. If someone did save these charts/photo's, please IM me with a link so I can get them back up. Edited 4-8-07 to add more about gas system dwell time: There has been a lot of discussion lately about dwell time and how it relates to the function of certain barrels, particularly 18" rifle-gassed, 18" mid-length and 14.5" mid-lengths. I put together a new graphic to illustrate DWELL TIME. To use this graphic, find the gas port location above the pressure trace (Orange marks) and then locate the barrel lengths below the pressure trace (Blue marks). The DWELL TIME is the time between these two marks (indicated on the X axis of the graphic as well as in the data below the graphic. Optimum dwell time is right around 0.200 ms when you use the two most common gas system/barrel length configurations of 20" rifles and 14.5" carbines. Note: the site that these photo's were linked to has been disconnected, but am searching to see if I can retrieve them. If someone did save these charts/photo's, please IM me with a link so I can get them back up. |
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Randall Rausch
www.ar15barrels.com |
nice write up.
A more detailed account of what happens in the FCG would be great also. |
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I'll work on that. This one was just specifically about how the gas system, extraction and ejection work as it relates to troubleshooting extraction problems. |
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Randall Rausch
www.ar15barrels.com |
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If I was King of the World, things would be different.
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Randall_Rausch,
Don’t take this personally, but the last place I would like to see any dealer or supplier is as Mod of the trouble-shooting forum. Granted that you may have the experience to do the job, but the question comes up regarding best interest of the members/yourself. Too many times we have seen favoritism in regards to one manufacture over another from dealers, or in regards to magazine writers or write ups, lack of calling a lemon a lemon when type/rifle/part crosses their desks (read posted more as a selling ad then a true review). 99.9% when there is a parts/production problem (not related to cleaning), you have to call it as it is. Not only is the option of sending the part back for replacement optioned, but the way to bring the part back into spec (as a system) is voiced as well. As a dealer-mod, there is the question of a generic responses in regards to fear of needing to sugar coat the response to prevent reprimanding from one of your suppliers, out of fear that it may cost you money if parts you do stock/sell would need to be replaced to customers (defective parts on a large scale at your own cost), or the question of motivation of further sales recommending a personally stocked part replacement when there may be options of simple smithing of existing to bring the system up to spec. Tweak was the ideal Mod since he had worked for several shops on the smith level, had seen the problems in both the production area, and repairing the after math of less than idea kits that had been produced with out of spec parts. Truthfully, if someone is to replace tweak, I think the integrity of the site would be better suited by another smith type (not sales type) that did not have a vested interest in one supplier over another, and would call the shots as they truly present themselves (not on a vested interest). Many of us are saddened by Tweaks ordeal/absents, but the real travesty to him/ his legacy would be to allow the trouble-shooting forum to go in another direction that he instilled it maintained over the years. Having filled in for him from time to time over the past few years, I have always thought of the Tweaks/his direction maintaining and foreseeing the forum before posting any responses, and only wish that the new mod appointed by the God of AFCOM, does so to maintain the level of excellent as a correction type forum with smithing options (and not just as another sales base tool of the site). Respectfully, Daniel |
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Totally understand and I had the same worries that I would have to piss off industry folks as well. I'm not afraid to do that.
If I had the power to appoint the replacement, you would be my first choice, even before myself. I sent a couple emails off to some of the site staff about covering during Tweak's absence and fully expecting a response such as yours. I was going to recommend YOU do it if you are willing... By all means, please step up and volunteer. I'll still be here helping any way I can. You may have noticed that I am not ALL about selling. I like to give back when I can as well. |
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Randall Rausch
www.ar15barrels.com |
Daniel, I am somewhat surprised by your post. First, Randall is not a moderator. Second, he gave one of the best write-ups about AR-15 functioning I have ever seen on this board. Hell, it's probably one of the five most useful things ever written on this board, much more valuble than slogging through page after page of EOTech vs. Aimpoint, Colt vs. Bushmaster, or 1/9 vs. 1/7 posts. It deserves a pin-up at the top of this forum. If you want to be a Mod, I advise you put that at the top of your agenda.
Second, I have never seen Randall express any favoratism for one brand or another. Let me repeat that again. Randall has NEVER expressed favoratism to one brand or another, even his own products. If you want to be a mod, step up to the plate, help out on this forum, and do you part. I have no objections to you as mod in the absence of Tweak, but don't go after one of the most helpful people around. Otherwise, in a manner of speaking, LAY OFF. |
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Getting ready to change into someone more comfortable. Name changes coming.
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Your understanding that there is zero clearance between the bolt face and cartridge case is incorrect. Headspace is the amount of space between the cartridge case head and the bolt face. The dimensions of the cartridge have LOTS of influence on the final headspace. Because the dimensions of ammo are not consistent, steel gauges were developed to serve as a standard that can be repeated by multiple manufacturers. There are established dimensions within the industry that specify how long a cartridge OR chamber should be. These dimensions allow for manufacturing tolerances, so they are not an ABSOLUTE VALUE. In the case of a chamber, we have headspace gauges to see that we are within spec. The actual dimension of the chamber and ammo is NOT important as long as the two work together correctly. You want to avoid more than about 0.005" headspace with your ammo/chamber combination. For reliability's sake, you don't want to go much under about 0.002" In the case of the AR-15 with it's bolt mounted ejector, the case is already being pushed forward and all the headspace will appear at the case head. In something like an uzi or mauser, with a fixed ejector, the cartridge case does get pushed forward in the chamber as it's being fired. There's actually a lot more going in in the chamber when the powder charge goes off, my version above was relatively simplified. When the primer ignites the powder and the cartridge is already against the chamber shoulder, there is headspace at the case head. Pressure actually pushes the primer back against the bolt face. As the pressure gets higher, the whole case yields and stretches just in front of the case head to fill the chamber. The reason that high pressure loads show flattened primers is that when the primer is hanging out the end of the case, it slightly balloons out and then gets sized back down when the case head slides back. This is where the squared off primer shape comes from. Read your PO Ackley and Julian Hatcher. Lot's of good stuff on what's going on inside the chamber...
You have a couple real important concepts backwards and I have underlined the important parts. When in battery (locked) the bolt is captured both forwards (by the barrel/cartridge) and rearward (by the lugs on the barrel extension) It is the carrier that moves rearward and cams the bolt via the cam pin to make the bolt rotate 22.5 degrees to unlock from the barrel extension. By this time, the carrier's (and buffer's) inertia keeps it moving rearward and PULLS the bolt along with it via the cam pin. How would the bolt travel backwards and react with the cam cut in the carrier if it's already captured by the barrel extension? Does this make sense? The gas does push forward against the bolt and rearward against the chamber within the carrier. You are correct that the bolt has no way to move forward, so only the carrier can move and only rearward as it is at rest against the extension when in battery. The back of the bolt and the gas rings are just there to seal the hole in the front end of the carrier. The carrier is the piece that the direct gas impingement is having the effect on. The INERTIA of the carrier and buffer are what tries to hold it in place AS WELL AS THE SPRING. When pressure gets high enough (quickly) it overrides the inertia AND the spring and moves the carrier rearward. It's the bolt that is just along for the ride during this. |
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Randall Rausch
www.ar15barrels.com |
Randall, thanks for clearing up my headspace confusion. I was introduced to the concept of headspace reading up on my M1A and I'm still not sure I 100% understand it.
As for the gas impingment, it seems you are saying that carrier rearward movement is begun to be driven by the effect of gas on the carrier key, even before the effect of gas on the bolt rings. I guess the question that remains for me is this: does bolt unlocking occur primarily as a function of the carrier "pulling" the bolt rearward, or as a function of the bolt "pushing" the carrier rearward? It seems to me that both forces are at work here; can one be termed the "primary" function over the other? [ETA that upon further thought it has to be the carrier that performs primary unlocking function; as you said the bolt is locked fore and after by barrel extension and locking lugs. Only way for bolt to unlock is to rotate via the cam pin, and the only way for that to happen is for the carrier to do the "primary" moving] To carry this thought further, what would be the effect of gas being vented from the carrier key to a point outside the carrier as opposed to inside the carrier? I find this fascinating and extremely helpful to my full(er) understaing of the functioning of the AR type rifle. |
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If I was King of the World, things would be different.
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No, the key just gets the gas inside the carrier.
The gas rings on the bolt are important. They confine the gas from moving forwards up along the bolt. This way, the carrier takes all the energy that the expansion of the gas carries.
Neither, the gas pushes against the gas rings, the bolt and the carrier. The bolt and rings are mechanically confined by locking lug alignment, the carrier is not confined except by ineretia and a spring, therefore the carrier moves back because of gas expansion inside. As the carrier slides back, the cam pin is forced over in the cam pin slot and this causes the bolt to rotate. It is the cam pin that unlocks the bolt. After the cam pin hits the end of it's track, the bolt is already unlocked and it simply gets PULLED (along with the spent case) away from the chamber.
Correct!
The carrier would not be forced rearward without the sealing of the gas rings to create something to push against. The gas does indeed get vented out of the carrier through the two exhaust ports. Of course this does not occur until the gas rings pass the ports. By this time, there is sufficient inertia to finish the cycle. |
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Randall Rausch
www.ar15barrels.com |
Guys,
Tweak and I talked about me taking over a few months ago, and I told him that I would take on the position. At that time, the site was not taking on new personal. My thoughts are that since I do tend to piss of the advertisers/other posters (read I pull no punches), the Gods of afcom are afraid that I will pick one day to declare total Jihad on them, and me being in the role of Mod would not be in the best interest of the site. Granted that Tweak did not pull punches either, he simply did so in a manner more tack full than I ever attempted. Hell, I think the best post that every comes to mind regarding my lack of tack was the one over in the shotgun forum where Mike informed the fellow posters that Afcom was signing me up for sensitivity training classes. Either way, as a Mod or just a Ghost in the machine like now, I will still post on the site (time willing, and/or not pissed off at someone at the site for a few weeks) to help others out as much as possible. |
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Waitaminnit...
Does the gas vent into the carrier forward or backward of the rings? I've always thought the gas acts upon the "muzzle" side of the rings, but based on your last, Randall, it sounds like the gas acts upon the "back wall" of that portion of the carrier directly behind the bolt, and the rings just seal the carrier from venting gas towards the bolt face. If this is the case then a lot of my misunderstanding about gas effects is explained! |
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If I was King of the World, things would be different.
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Gas flows down the tube, threw the key and into the gas chamber section.
The back end of the bolt semi seals the rear of thee gas chamber, and the rings seal the front. With pressure added between these two points, the expansion would cause the bolt to move forward , but since it can't go anymore forward, the carrier is pushed rearward, and since the carrier/bolt is prevented from spinning by the upper track slot via the cam, the bolt is cam'd open as the carrier moves back (cam tracking down the carrier slot). To add, since the gas system does leak in more than a few points along the way, the barrel gas port is sized to include this normal leakage. |
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Bump to let everyone know that I added a useful graphic and comments to the post at the top.
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Randall Rausch
www.ar15barrels.com |
Tag
Outstanding. I think I may have solved a porblem with an upper based on your writeup. Thanks! |
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"To surrender Liberty in the name of Safety is to surrender both."
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That's why I wrote it up... You're welcome. |
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Randall Rausch
www.ar15barrels.com |
By any chance you have information on gas port sizes of mid-length and pistol gas systems? Thanks.
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I have lots of information gathered from years of measuring existing barrels and developing my own data during "test fire and open up the port for good function" sessions. Simply asking for pistol or mid-length gas port sizes is not enough for me to give you an answer. The length and caliber (if other than 223/5.56) certainly plays into it. |
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Randall Rausch
www.ar15barrels.com |
Nice post Randall, very informative.
This definately deserves a sticky |
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3 day bump until we can get a new moderator to sticky this...
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Randall Rausch
www.ar15barrels.com |
Randall,
Great write up! This should be required reading for all AR owners... |
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After all the B.S. is said and done perhaps all I can say is Molon Labe!!!
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Feel free to pass the link around as you see fit. I wrote it to help everyone gain a better understanding. A big THANKS to Dano for giving it a sticky in the troubleshooting forum |
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Randall Rausch
www.ar15barrels.com |
Randall,
Just wanted to say thanks for putting that out there, it was an excellent post and a great graphic. |
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Awsome post, Randall.
I converted it to a PDF, for whoever is intersted in downloading it, Randall, with your permission I'll host it and post a link |
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"If the Bible has taught us nothing else, and it hasn't, it's that girls should stick to girls sports, such as hot oil wrestling and foxy boxing and such and such." Homer Simpson
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No offense, but I would rather you not distribute a PDF copy of this. I intend for it to be an ongoing topic about ALL the different systems at work in the AR action and your PDF would just be a snapshot of the post on a specific day. As I add more to it, your PDF gets more and more out-of-date. This topic is tacked now, so there's no worry it will fall off or be hard to find. Just spread around the link to this topic. |
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Randall Rausch
www.ar15barrels.com |
No problem! |
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"If the Bible has taught us nothing else, and it hasn't, it's that girls should stick to girls sports, such as hot oil wrestling and foxy boxing and such and such." Homer Simpson
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Good stuff Randall,
Please go back to the first:
Can the trigger fall against the firing pin if the bolt is full forward in the chamber, against the brass, but not rotated and locked, or just partially rotated, ie. bolt carrier slightly back off of the full forward position? If not, why not? ==================================================================== I suppose another way to think of the head space clearance is that if you did not have clearance, you would have line to line contact between the bolt face and the brass or an interference fit between the same. The clearance allows an imperfect fit to still work over temperature ranges, over machining and assembly tolerance stack-ups, etc. |
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The carrier blocks forward firing pin travel. If the bolt is partially locked, the bolt carrier is still at least 0.075" from the barrel extension. As the firing pin protrusion is somewhere around 0.040" when seated, the firing pin would not be able to reach the primer when being held back 0.075" by the carrier. What would happen is that the extra energy of the hammer would tend to drive the carrier closed. Maybe, BIG MAYBE, there is enough momentum to fire the primer, but not likely. If the carrier is in motion, it will have finished locking before the hammer gets there if the hammer is released while the carrier is still back 0.0.075". When you check the autosear timing on an M16, you are looking at the distance the carrier is from the bolt carrier when the hammer is released. Off the top of my head, this is about 0.100"or less. Any more and the hammer will beat the carrier and you get misfires.
Exactly right, that's why we NEED some headspace, to allow for manufacturing tolerances. Standards and Gauges are just an implementation method so that multiple makers in different areas can make products that are all compatible. |
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Randall Rausch
www.ar15barrels.com |
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President Bush was blasted by Democrats for not mentioning global warming in his State of the Union.... They just weren't listening.... the Weather Channel announced that the long-range forecast for Iran is ten thousand degrees and cloudy. —Argus Hamilton
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The safety feature of the AR/M-16 system is that when the bolt is unlocked, the back of the bolt (FP stop collar section on the bolt) is retacted into the carrier. As the bolt locks home via rotation of the bolt by the carier cam as the carrier drives forward, the back of the bolt then protudes beyond the back of the carrier to allow the firing pin to protude the needed amount of.032-.037* for correct ignition into the bolt it's self. *Correct FP protusion threw the face of the bolt with the FP bottom out on the back of the bolt (stop collar section) is .032 to .037 for 223/5.56 nato, and up to .039 in the 7.62X39. On in spec parts, the bolt lugs will need to engauge the barrel extension lugs at least 70%(+/-) before the back of the bolt clears the the back of carrier section. If in fact the bolt has not locked at least this amount, then as the hammer strikes the FP, the FP will bottom out on the back of the carrier, and then the hammer needed igniton force would be lost driving the carrier forward/home before the FP could even begin to bottom out in the bolt. As for carrier face to barrel extension face gap of a M-16 for hammer release from the auto sear, the normal gap is .082 +/_. If the release is advanced past the .110 range/gap, then the hammer comes down on a blocked FP (FP strikes the back of the carrier, with the back of the bolt not yet clearing the back of the carrier threw lockup). |
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Excellent! Thanks Randall and Dano523. Don't want to run a good thing into the ground, but one last question about the gas works, please. When the carrier is accelerated to the rear by the expanding gas and the cam pin on the piston bottoms in the carrier slot (bolt unlocked and starting to travel with the carrier now), does the residual gas in the gas key and cavity between piston rings and carrier do any more work in accelerating the bolt carrier group (BCG) rearward, or is it all spent by now? In other words, when the gas key clears the gas tube, is residual gas in the BCG jetting back out the gas key in any sufficient amount to add thrust? |
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By the time the bolt is completely unlocked, the gas rings have cleared the exhaust ports in the carrier and vented all excess pressure out the ejection port, so NO, there is no residual gas pressure doing any work. |
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Randall Rausch
www.ar15barrels.com |
Wow! Just found and read this thread, and can't quite remember learning so much at one sitting!
One quick, minor question: In the paragraph below, instead of "retacted" or "reacted", shouldn't the word be retracted?
Thanks! (Not for the answer to my question; but for the thread!) Alex |
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Yeah, you have it right, it's retracted and protrude, Dano probably types fast and posts before proofreading just like I do. Maybe his "R" key is not working good on his keyboard. Ignore minor spelling issues, you probably understand what's happening if you caught the spelling errors. |
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Randall Rausch
www.ar15barrels.com |
I have a gas port question that's been bugging me.
If the chamber pressure is high at beginning of the barrel and drops off as it travels down the barrel, then when the gas port is closer to the chamber, why do we need larger port size? Wouldn't the higher pressure provide more cycling force? If we need to match the pressure to longer barrel, won't we be using smaller hole? It is also demostrated that short barrel can cause pre-mature extraction (high chamber pressure and with larger port size), people then use heavier buffer, longer gas tube to retard the timing. Why not just reduce the port size and reduce the pressure? (of course smaller port probably won't cycle) Could it be that we need not only pressure but volumn (mass) for the gas as well? |
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HaHa, he gets it... You need a certain VOLUME of gas to function the action, not a certain pressure. You can get this volume with a large port and short duration or low pressure or with a small port and long duration or high pressure. With the SAME barrel length, you make the port smaller as it gets closer to the chamber. What you are doing here is two different things, first tapping into a higher PRESSURE gas supply, but ALSO increasing the DWELL TIME. Now, when you shorten a barrel, while keeping the same gas system, you are simply reducing the dwell time and it's appropriate to enlarge the gas port accordingly. If you are COMPARING two different barrels and both have the same amount of barrel length past the gas port, then the port will likely be smaller on the shorter barrel as that port is nearer to the chamber and therefore gets a higher pressure gas supply. Running a proper size gas port or adjustable gas system is FAR BETTER than resorting to a heavy buffer (more reciprocating mass means more muzzle rise), but it's easier to just buy a heavy buffer and swap out parts than properly correct the gas flow. Adjustable gas tubes are $60 and offer one more thing to go wrong and heavy buffers are like $15, what would you choose? MOST AR's come over-gassed from the factory so that they will run correctly right out of the box without waiting for the gas rings to seat into the carrier. Once the gas rings seat, the rifles are more likely to show signs of over gassing. That's one more reason heavy buffers and o-rings on extractors are so commonplace. For these very same reasons, you can take a 16" (carbine length gas system) barrel, cut it to 14.5" and they run perfect. This is not always the case though, I recently cut an LMT MRP 16" (mid-length gas system) down to 14.5" which DID require being opened up some. I was pleased that the MRP barrel gas port was more towards the small side of the range. |
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Randall Rausch
www.ar15barrels.com |
ahh... It is all clear now
So theortically, we should be able to calc the size of the port based on distance from muzzle to gas port and distance from gas port to chamber - to establish the min gas volume required. Now the tricky part is to figure out the time it takes to unlock the bolt and how long it takes the bullet to leave the muzzle to drop chamber pressure. Thanks again. |
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Randall,
Great writeup. One question though, is that a notional trace or is that an actual trace using a strain gauge? Reason I ask is you are showing a 60,000 psi MAP but that's above SAAMI max. Is that laod from a manual or is it something you worked up? |
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The trace is purely an estimation, generated by Quickload. The test conditions are in the bottom of the graphic. I can run a trace like that with ANY combination of projectile, powder and pressure. The trace is "close enough" as it's purpose is just as an educational aid. SAAMI and NATO specs are different on the pressure by the way and most of us shoot NATO spec ammo at one time or another. |
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Randall Rausch
www.ar15barrels.com |
TM 43-0001-27 Thanks for clarifying. About your comment regarding NATO pressure vs SAAMI, the link above (Chapter 10) lists pressure as 52,000 psi for M193 ball and 55,000 psi for M855. This falls right in line with SAAMI (actually, a tad lower for the M193). I've heard over and over that NATO pressure runs higher so I was pretty surprised when I saw these specs. Do you have any idea if the TM is in error? Or are we talking that NATO pressure loads, when fired in a NATO chamber, comply with the 52K psi limit, but when fired in .223 SAAMI chambers the perssures are way higher. I'm wondering if your QL model is basing it's pressure calculation on a .223 SAAMI chamber vs a NATO chamber. Any comments? |
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The quickload pressure is not based on a load, the chosen load is based on a pressure that I specified. I can run the pressure anywhere I want and quickload chooses the amount of powder when you give it the bullet, cartridge and pressure to work to. I just chose 60,000 as an extreme. I don't really care to nitpick about a few 1000 PSI one way or another. It's the CONCEPT that is most important and I think you grasp it well. Standard load testing is done at 70 degrees F or so. Take that NATO ammo and bake it to 120 like our boys in the sandbox and the pressures are COMPLETELY different. Not uncommon to gain 5,000 to 10,000 PSI by elevating the test temperature. |
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Randall Rausch
www.ar15barrels.com |
Roger that. I'm well aware of temp sensitivity of different powders, especially ball powders. Still I was surprised to see pressures in the low-mid 50,000 psi specified in the TM. Also had never heard of it, but there's a proof load cartridge designated, something like 70,000 psi, but again that's a proof load.
Just out of curiosity, based on your QL plot, I went to Hogdon's website to see if they listed the Sierra 63 and H-335. They did but it was 25.0 grains and 50,000 CUP. I realize CUP and PSI are two different measurement systems, but after seeing their load data, it doesn't surprise me that QL spit out a charge that was more than 2 grains over Hogdon's listed max. I dig internal ballistics. Call me weird ........ |
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Off the top of my head, CIP specs allow for 62,000 PSI in 5.56x45 which is why I was being safe and only using 60,000 PSI.
Gotta love those Europeans... I could be wrong though, it's happened before. |
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Randall Rausch
www.ar15barrels.com |
OK, just for fun, I also went and checked Hodgdon's site as well.
They list the 63 Sierra SP using 25gr pf H335 as making 50,000 CUP and 3051fps in a 24" barrel loaded at 2.200" long. How is this for a Quickload validation/comparison? Quickload estimates 47,916 PSI and 3021fps from a 24" barrel. As Quickload is just an estimation and Hogdon's data is from actual testing, it's safe to assume that Quickload is VERY close/accurate. It's well known that the same load in different barrels can vary 50 FPS. I could probably tweak the rifling bore/groove dimensions to get quickload within a few FPS and it would correlate to Hodgdon's published test results with other powders/bullets as well. If you like playing with internal ballistics, bone up the $150 and buy a copy. It's the coolest program you will ever own. |
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Randall Rausch
www.ar15barrels.com |
AR15barrel,
First, thank you for helping an old retired bolt-action sniper to better understand the operation of his AR-15. It helps more than you could ever now. I now own a Colt Sporter AR-15 7.62x39 and in love with its performance and round used. I have learned that the pressures from the 7.62x39 are less than that of the .223/5.56. My question revolves around this caliber and is their any areas of concern that I should be aware of since I am using the 7.62x39 over the .223/5.56? This AR eats Wolf Russian ammo like a starved child. Is their any thing I should as well be concerned about with the steel cases used? BTW, since the news of the new mags coming out for my AR, two of my friends have now asked me if I would consider selling it. My reply was only if someone offered me between $7,000 to $8,000 for it. That would allow me to obtain another to replace it and some extra toys to go with it. Thanks Again, ArticWolf |
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ArticWolf,
The greater body taper of the 7.62 X 39 over the 5.56 Nato cases leads to better/cleaner extractions. Furthermore, since this is a Colt upper/barrel, the chamber is more on the par with a true military chamber, and not the tighter produced (side wall dimensions) then what is being offered by some of the non-colt suppliers (again, another bonus). In regards to the 7.62 X 39, coated steel case ammo is the standards and is no concern with the colt rifle, and truth be told, should not be a problem for the other non-colt systems as well. As you stated, and have figured out, the mags for the rifle have been the weak link with the system since some of the cheap clones were just a waste of time (read jam city, and a big reason that receivers like the AK-15 that used AK mags where designed). To sum it up for you, if you are going to run an AR type receiver in 7.62 X39 and already have the colt upper system/barreled action, selling it off for any price is going to bite you in the ass at the end trying to find a cheap reliable replacement kit type rifle to replace it. On the other hand, if you are looking to go exotic for a replacement rifle for it, then someone like AR15barrel would be a great source to have the barrel made, or even have a complete upper/rifle built to your specs. |
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Posted By PlaymoreMinds:
'Twas not the <cough> sweet and innocent <cough> PlaymoreMinds... <---skips away in frilly skirts to Candyland, leaving gutters and snorkels FAR behind. |
Dano523, I must have the luck of the Irish on St Patty’s day Dano. When I got the rifle, it came with 4 (20 round) after market mags and 1 (10 round) quality mag. While I had to rework only one of the mags, I have 5 dependable mags that I would go into combat with. The reason that I’m alive today is based in the fact that I had good instructions that taught me that rule #1 is “KNOW YOUR WEAPON”! Having additional information such as posted in this thread only helps to obtain that goal. I have held off for over 25 years in buying the AR-15 because of the limits placed on the .223/5.56. When I found on in the 7.62x39 I pulled the strings necessary to buy it and have NEVER regretted (other than the offers to sell) it. Thanks for the additional info Dano. ArticWolf |
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Articwolf-
Good to hear that you have some good reliable mags with your 7.62x39 upper. My only suggestion is to get yourself a spare bolt. 7.62x39 bolt thrust runs above the design parameters of the M16 design. Here is my bolt thrust page that allows you to play with pressures and see how they affect bolt thrust: Bolt Thrust |
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Randall Rausch
www.ar15barrels.com |
thanks Randal,
this was a huge help to those of us who have relativaly no knowlage of the inner workings of our equipment! Thanks again!! |
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Randall,
Thanks for the extra information. I find it very helpful to better understand the parts at play in this system. I have always had some concern over the ‘backtrust’ issue in this weapon system using the 7.62x39. I am looking to have a good parts supply for this weapon. However, finding quality parts is another mater when it comes to this combination as I have found. With your experience what do you think the rounds/bolt rate would be? Do you have any suggestions as a good place to start looking for a good quality replacement bolt for my AR? I for one am very glad that you made your post as this has been the best source of information beyond load, point, shoot that I have come across. Thanks Again, ArticWolf |
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