You don’t see many cutaways. Here’s a shot of a Colt M16A1 cutaway:
This one was done by a little shop called Colt Patent Firearms Manufacturing Company — you may have heard of them — for a retiring worker, and resides in the Cody Museum — you may have heard of it.
So one of the ARFCOM retro heads, “Trimdad” of Oklahoma, got it into his head to do a cutaway of this: M16A2 clone with M203. By himself. With a Dremel tool. Here’s the thread.
Here’s a shot to compare with the Cody Museum Colt:
Here’s an overview:
And some close-ups. The receiver:
The bolt and gas subsystem:
The trigger group (note that this lacks the auto sear of the factory gun):
The business end:
And the buttstock and its features:
It all came about because he had parts for an A2 build, but not for an authentic A2 build (kind of a big deal in the retro world). As he puts it:
This one started because I had some A2 parts I was saving for a clone, but they weren’t Colt parts do I decided to sacrifice them . The upper is a dpms with a strange texture on it. The lower was a 80% A2 that braceman couldn’t sell. The barrel is a FN that was rusted and shot out. The 203 is a Colt licensed airsoft and the rest was laying at the bottom of the parts box.
The airsoft nature of the 203 is evident on close up of its left side — you can see the circular marks from the ejector pins used in injection molding.
Since these live, mostly, on the “inside” of the firearm, as it’s displayed (and it is a firearm — the lower would actually function, with a functional upper), the giveaway doesn’t really matter.
Moral of story: a Dremel does not turn you into Bubba, any more than a Glock turns you into some cop killer from Black Criminals’ Lives Matter. The tool is fine and good, but it’s what a man does with it that cements his place in the universe.
Well done, Trimdad.
He’s also done an A1. Next? Maybe an M4… complete with a sectioned ACOG, or maybe a Chinese Fake-COG. We’re guessing it’ll be awesome.
Colt 1908. The kinship to the FN 1906 is obvious (Both are Browning designs). Image: Adams Guns via wikipedia.
Today the defensive caliber argument seems to have devolved into two warring camps: those who like a small .380 or 9mm, and those who sniff at anything whose Imperial measurement does not begin at .4. So the older pocket pistols of the 20th Century, and even the police revolvers and some military pistols of the early 20th, seem inexplicable to a modern shooter.
Sure, they’re small, but so is a Seecamp .380 or a Micro Desert Eagle (both of which, completely off topic, have Czech antecedents. We’ll get back on topic, now). And the standing joke, which we believe may have originated with .45 aficionado and 10mm impresario Jeff Cooper, is, “Never shoot a man with a .32. It might make him angry, and then he’ll want to fight.”
Millions of .32s like this Iver Johnson were sold in the 20th Century, mostly for defense. Why?
Yet, who ever thought it was okay for cops to walk the mean streets of New York and Chicago with a .32 Police Positive, Official Police, or M&P? Why did European cops cling to the .32 ACP well into the 1980s? Why did the Wehrmacht, of all things, reopen a conscientious objector’s closed factory so that his product, a tiny .25, could be produced — 117,000 of them — for sale to German officials?
More generally, why were micro .25s and compact .32s made and sold in the tens of millions worldwide?
First, the small size of these firearms (and their ammunition) is not just a disadvantage. Ninety-nine percent of the time, it is a boon: you carry a gun a lot more than you shoot it. In this nation of 330 million citizens and probably 3 million legitimately armed law officers and everyday concealed carriers, there are almost certainly under 300 police officers and Federal Agents who have fired their guns at suspects in more than one situation. (There wouldn’t be that many, if not for the emergence of tactical teams). The civilian who’s been involved in two defensive shootings is rare enough that we can’t think of an example — maybe you can.
Second, a small gun encourages carry. A gun that’s small and light inclines you to include it in your pocket litter or slip its holster onto your belt or waistband. Remember the first rule of gunfights: bring a gun. A small gun is, ceteris paribus, more likely to “get brung” than a big hogleg.
Third, for ex officio gun carriers, if not constrained by regulations, any gun will do. That’s why the Germans wanted all those .25s and .32s. Most cops were never going to shoot anybody, but the pistol in its flap holster was a mark of authority, like the badge. While that’s true for the National Railway Police riding the trains under Hitler, it’s also true for the large amount of American and worldwide cops who have a house-mouse assignment or are promoted to management rank.
Likewise, an officer of the vaunted German General Staff was supposed to have a pistol, but he had no serious plans to go down guns blazing like a Karl May hero, in front of a Red Army assault. The gun was a badge of office. It’s possible more officers killed themselves with their small pistols than killed a Russian, Brit or American enemy.
Fourth, there was historical precedent for small guns. As far back as a before the Civil War, Colt made its revolvers available in small and large caliber (.36 and .45). Others made .32s at this time. When Colt came out with its cartridge .32 in the 1890s, it had actually made a small, spur-trigger .22 some 20 years before that. Some people wanted a big gun, some wanted to trade off that gun’s advantages for the advantages of a small gun, and the market responded.
Fifth, the small guns were thought adequate at the time. The advent of the much more powerful smokeless powders in the late 19th Century made it possible to pack more power into a smaller gun. The NYPD did not adopt the Colt .32 at the behest of some berk ignorant of guns: Commissioner Theodore Roosevelt, a lifelong gun enthusiast, drove the 1896 adoption of the New Police, a longer-barreled and square-butt version of the 1893 New Pocket revolver chambered for the .32 Colt. (Later, an improved version became the .32 Police Positive, chambered for the slightly less awful .32 S&W Long, which Colt called “.32 Police” because they wouldn’t say the two initials of their despised competitor upriver).
Why was a .32 adequate in 1896 but not by 1996? Certainly there have been many improvements in firearms since those beautiful little Colts left Hartford 120 years ago. Some of it may just be that more powerful handguns are available.
But another possibility is that human beings have changed. Anyone who has observed collections, for instance, of WWII uniforms notes that, compared to modern soldiers, midcentury guys were small. They were shorter and much leaner. Statistics bear this out.
The average height of the Federal soldier was put at 5 feet, 8¼ inches. … Incomplete records indicate the average weight was 143¼ pounds.
That’s definitely a lot leaner (and a little shorter) than today’s median GI.
And here’s a table showing the gradual but real growth of the American soldier to 1984. (The Civil War numbers here are better supported than those in the link above). We submit that this growth has accelerated since (and note the small n of the 1984 study suggests it may produce a less reliable mean than the earlier ones). Also, the Civil War measurements were taken clothed, WWI and up naked, so the differences were probably greater. Source.
Table 3-1Comparison of Some Anthropometric Characteristics of Male Soldiers in 1864, 1919, 1946, and 1984
As you see, not only the overall mass of the soldier had increased by over 25 lbs, but also, over 20 of that was fat-free mass — presumably, stronger bones and thicker muscle. A 15% or more increase in musculature on the average young man makes him harder to stop and to kill, once again all other things being equal. Scientists ascribe this in part to improved nutrition as civilization’s benefits came to include refrigeration, rail transport and industrial-scale farming.
The people police may engage with, criminals, are also likely to be obese, unlike soldiers.
In the last 120 years, more powerful cartridges (and more of them) have been a trend in pistols. We identify several possible reasons for this trend. But when you break it down, they basically fall into two categories:
More powerful pistols are possible now, given technology’s advances in powder chemistry, metallurgy, etc.
More powerful pistols are necessary now, given the increased robustness of the mean and median human target.
In addition, there’s a third factor that may outweigh these two practicalities: fashion. We won’t raise it with reference to the present time — we’ll just point out that Roosevelt’s adoption of the .32 New Police for his New York coppers in 1896 set off a preference cascade that led many big cities to .32 Colt and Smith & Wesson revolvers within 10-20 years.
No sooner had the .32s graced police holsters than clamor for more powerful cartridges would set in. This led to a step up to .38, until S&W were finally convinced they had put the police firepower issue to rest for all time with the new .38 S&W Special cartridge.
In an interesting commentary that accompanies the third in an ongoing series of videos he did on Winchester’s also-ran G30M rifle and related prototypes, Ian McCollum at Forgotten Weapons reports these results from the 1940 Marine Corps tests of then state-of-the-art M1 Garand and Johnson semi-automatic rifles.
Ultimately the trials were won by the Garand, with the G30M placing third in total malfunctions and broken parts. This had involved 37 different tests and more than 12,000 rounds through each rifle. The Garand had 1,480 total malfunctions and 49 parts broken, replaced, or repaired. The Johnson had 1,547 and 72 respectively, and the G30M 2,864 and 97 (roughly double the number of problems as the Garand).
These numbers are indicative of just how far we’ve come in firearms reliability in ¾ of a century. This table shows (assuming 12,000 rounds as our denominator, which is close enough because our purpose here is comparison) that as reliable as those rifles were for their day, hey were pretty buggy by today’s standards. Looking at the percentages really makes the data pop.
Assuming a “malfunction” equals a stoppage, we’ll label those percentage of stoppages and we’ll label the parts breakages “failures.”
USMC Rifle Test 1940
Now, those numbers are good for the era! As you might expect, the Garand, which had had the most development, was the most reliable, with the Johnson closely behind. The Winchester prototype, designed by Ed Browning and updated by David Marshall Williams, was about twice as prone to stoppage and breakage as the Garand, but as you can see if you watch Ian’s video of these rare prototypes at the Cody Center, they were pretty raw, hand-tooled prototypes and probably could have been further improved with more time. Like the Johnson, though, they were out of time, pursuing the pretty-darn-good M1 Garand in an adoption stern chase in which they had no chance of overtaking the leader, unless they were really strikingly better at something. But the advantages of the Johnson and Winchester designs were small, and on key reliability numbers they were at a disadvantage.
But the think that really struck us is, how much less reliable these 1940 weapons were than a modern AR or AK. While many other things have been improved in service rifles since the 1940s, rifle reliability is probably the greatest. Yes, you can seize up an M4 pretty good if you burn through hundreds of rounds on cyclic rate, but you’d be doing immediate action a lot more often on a World War II era rifle.
This is borne out by data from the many, many M16 and M4 tests. For example, in the worst M4 test ever, the notorious and outlying 2007 extreme dust test, ten M4s fired 6,000 rounds per rifle with 1.4% stoppages. (You can download the .ppt of the test results at this post at The Firearm Blog).
And this number was over 4x the number of failures in an earlier iteration of the same test, a result the Army Research Lab has never explained insofar as we know.
Now we can’t compare the 1940 and 2007 tests directly and say that the M4 is nearly ten times more reliable than the M1. But we are pretty confident that an apples to apples test would show the new rifle as significantly more reliable.
It is also our experience, although we can’t back it up with bench data, that the current rifles like the M4 and the AK-74 are substantially more reliable than 1950s and 1960s rifles like the FN-FAL, H&K G3, and M16A1.
Of course, if you want reliable cycling, it’s hard to beat the rifle the Marines used as a control in the 1940 tests — the US Rifle Cal. .30 M1903, your basic turn-bolt Mauser action.
This is completely aside from the points Ian was making in his great series of videos. Certainly the Marines, like every armed service, tried their best to give their servicemen a rifle that was the State of the Art, and their combat performance with that rifle bears out the judgment of their ordnance officers and the Commandant at the time. That the Marines no longer carry the once-beloved M1 just proves that today’s ordnance officers and Commandant are still trying to give their servicemen (and now, -women) a rifle that is the State of the Art.
In monarchies, the passing of a monarch is often announced with a cry: “The King is dead. Long live the King!” Maybe that’s how we should think about service rifles? The 1903, M1, M14, M16 and now M4 have all worn the crown. One day, the M4 will pass on to the museums and some future counterpart of Ian will study it, but a new King shall sit upon the rifle throne.
In 1967, the Air Commandos began to develop a night special operations gunship capability called Project Black Spot. They leveraged the capabilities of primitive imagery intensifiers to create an aircraft that could defeat the darkness and interdict enemy movement in areas where the threat situation was too “hot” for a low-and-slow-flying fixed-wing gunship. While a couple of these areas were obviously the Ho Chi Minh Trail in Laos and Cambodia, the ship was also used to hunt clandesting agent-landing boats off the coasts of South Korea.
The airframe selected was the Fairchild C-123K Provider, which after modification was called the NC-123 (formal name) or AC-123 (as used by crews). Instead of side-firing guns, the Black Spot birds had cluster bomb unit (CBU) dispensers and carried a war load of over 6,000 1-lb dual-purpose CBUs, of which 24 could be delivered (2 x 12-unit racks) in a single pass. The CBU racks could then be in-flight reloaded by the crew.
Some sources say three airframes were modified, but only two show up in most references: 54-691 and 54-698.
The key to the system was the sensors: X-Band Radar, Doppler terrain-following radar, night-vision Forward Looking Infrared Radar (FLIR), night-vision Low Light Level TV (LLLTV), a Radar Homing and Warning (RHAW) countermeasures device, and a laser range-finder/illuminator. Some of these systems were new, and some had been developed for strategic bombers, but taken together they greatly improved the situational awareness of the crew.
In a harbinger of what was to come, the the TFR, FLIR and LLLTC were housed in a gimbaling “ball” in the nose.
The outcome of the Korean tests is unknown. The Vietnam theater tests were successful, despite the aircraft having gross weight and density altitude limitations. In addition, a limitation of the cluster bomb dispenser required the pilots to fly the plane at 4,800 feet — no more, no less.
At the end of the test, the NC-123s were converted back to ordinary C-123K trash haulers. All of the sensors proven on the NC-123 were used in subsequent gunships.
Not all experimental sensors from this period went forward. Black Crow, for example, was a truck-ignition detector that zeroed in on the ignition “noise” produced by unshielded wires in the typical Otto-cycle gasoline engine’s spark-ignition system. It was deadly effective on the trucks of the Ho Chi Minh Trail, but wouldn’t work on newer trucks. Black Crow was only installed on -698, but did become standard on the AC-130s for a time.
Proving this technology on large airplanes like transports and bombers was necessary and laid fundamental groundwork for US dominance in low-light sensing systems in present years. It is a matter of some concern that, while we continue to exploit, miniaturize and field these 1960s technologies, the rate of development has slowed, and we’re resting on our, sometimes 1960s-vintage, laurels.
Chinnery, Philip D. Air Commando: Inside The Air Force Special Operations Command. London: Airlife Press, 2008. pp. 210-218.
Johnson, E.R. American Attack Aircraft Since 1926. Jefferson, NC: McFarland & Company, 2008. pp. 210-211.
We’re working on a technical post on the suppressors of World War II. We know of the following:
Germany: Pistole 27(t) late war suppressor, MP 40 suppressor (limited production) K.98k suppressor (ditto).
Great Britain: Welrod, High Standard .22, Luger, Maxim suppressors (SOE was disappointed), Mk IIS Sten. De Lisle carbine.
United States: M1911A1 .45, integral M3/M3A1 SMG, Colt .380, High-standard .22 (entirely different from the British development).
USSR: none (this does not seem right, given the Soviets’ extensive use of “diversionary” and special operations elements, and their broad conception of intelligence and reconnaissance operations).
Minor powers: none
Help a brother out here. What else is unknown out there? I expect the bulk of the article is going to be on the P.27(t), which is known from several surviving samples, and the British stuff, which is very well documented.
Don’t know anything about these but we came across this video by Robert Germanelo, and it was interesting. It made us go look up the manufacturer’s website. Eight minutes.
It takes 16 or so passes to remove the right amount of material. Note his warning about breaking the carbide cutter inserts if you try to remove too much material in one pass. We don’t know if that’s the cause, but the guy whose homebuilt SIG 229 project videos feature after the jump did indeed break one of his inserts.
The manufacturer’s website is here. It has a comprehensive rig for doing 1911 and SIG frames without a milling machine (as seen in the video above). They sell the jigs, the cast 80% frames, and completion kits made from decommissioned 9mm German SIGs. (Parts interchange seems fine between German and USA made SIGs, FWIW).
Downside? It’s a lot more expensive to do a SIG this way than to do a Glock with the Polymer80 Spectre, much like SIGS cost about 2.x Glock in the real world. Indeed, this is not a way to save money on a pistol — you can buy a 229 or a G17 for less than you can build one for, whether you went SIG with Matrix or Glock with P80. But you can’t buy one you built yourself, which to us is the whole appeal of this thing.
However we won’t be doing this until we (1) catch up on other builds and (2) recover from some gun-related spending, eh.
If you want more information on how the Matrix jig works on the P229 frame, there is a whole series of videos after the jump.
Mel Johnson holding a sporting Spitfire with his rifles and MGs displayed.
Long before FN differentiated their small .22 caliber centerfire pistol round by calling it the 5.7, another 5.7 launched in a big media splash and went nowhere — even though it’s father was one of the most distinguished firearms designers of the 20th Century.
The 5.7 Original Gangsta round is often called the 5.7 Spitfire, although its official name was actually the 5.7 MMJ, after the initials of its inventor: Melvin M. Johnson of Johnson Rifle and LMG fame. Johnson began working on a 5.7 x 33 necked version of the US .30 Carbine cartridge in 1961, and introduced the cartridge in his own M1 Carbine version, the 5.7 Spitfire, in 1963. While he always intended the round to be a light, handy, high-velocity carbine round, he did round development in a bolt-action with a custom Sako barrel, achieving MOA accuracy. In the Spitfire carbine, 3″ groups at 100 yards was more standard, but Johnson did make a 2.25″ 5 shot group in 5 seconds from the carbine once, in 1962.
He had initially hoped for 3,000 fps but…
… this raises the pressures over the 40,000 PSI mark (.30 carbine standard) which, as Johnson says, “Is not so good for the M1 carbine extractor.”1
Final performance was about 2,800 fps with a 40-grain full metal jacket bullet.
The Spitfire wasn’t just a rebarreled carbine. Rakusan noted that…
The carbine itself undergoes considerable change to accept this new cartridge. The barrel is relined and rechambered. The gas port is altered, giving twice the operating gas compression ratio of the original .30 carbine and about 20% more power in the driving spring, this plus cartridge design assuring positive feeding. With the 18″ barrel (Johnson also has a military version with a 12″ barrel) the overall length of the new carving is 35″, 27 1/2″ with the stock folded, 1 1/2″ longer than the requirements of the Federal Firearms Act. This short, handy length is achieved by a folding wire stock which also acts as an optional fore-end grip.
In 1964, Johnson would sell you a Spitfire from his New Haven business address for $130, or convert your M1 Carbine for $73. In addition, a shorty military/NFA version was available which, with the folding stock, was a mere 21″ long folded thanks to a 12″ barrel. In addition to the military Spitfires, some were finely finished sporting arms (NRA image below):
While most modern articles about the 5.7 MMJ and 5.7 Spitfire seem to talk it up as a military gun, the 1964 Shotgun News article stresses sporting applications: “short-range varmint hunting.”
Mel Johnson writes that he was impressed by George Lindsay’s remarks in “The Hornet’s Big Enough,” published in the 17th edition of the Gun Digest, which stated, “Even out West, fences are going up. People are closing in– and somebody is sitting on my rock.”
For too many varmint hunters the days of wide open ranges are gone, and most of the hunting must be done in semi- populated areas. Here is where the 5.7 spitfire will shine– remember, it was designed primarily as a short-to-medium-range varminter.3
Johnson was still promoting the Spitfire and seeking investors when he passed away of an unexpected heart attack on a business trip to Boston. He was 55 years old, and without him, the light went out of the project, although family tried to continue it. Periodically someone tries to resurrect the project, notably IAI in the early 90s.
The 5.7 Spitfire was tested informally by SF in Vietnam (where some carried carbines because that’s what most of their CIDG carried). No one really knows how many Spirfires were made and converted; they’re rare today, but seem to draw little collector interest, perhaps because of the wildcat round. Making the ammo is not as onerous as people think, and custom-loaded (and 5.7 Johnson headstamped) ammo is available, at a price. A Spitfire would be a nice addition to a Johnson collection.
Canfield, Bruce N. (with Robert L. Lamoureaux and Edward R. Johnson). Johnson Rifles and Machine Guns: The Story of Melvin Maynard Johnson, Jr., and His Guns. Lincoln, RI: Adrew Mowbray Publishers, 2002.
Rakusan, J. 5.7 Spitfire, in Amber, John T. (Ed.). Gun Digest, 1964. Chicago: Follett Publishing Company, 1964. p. 166.
Rakusan, J. 5.7 Spitfire, in Amber, John T. (Ed.). Gun Digest, 1964. Chicago: Follett Publishing Company, 1964. p. 166.
Here at the Wile E Coyote Institute for Applied Aeronautics (and Gunsmiting) we occasionally find a tool we really like. Here is one such tool that not only belongs in your shop toolbox, but in your range kit, and that goes double if you’re a unit or department armorer (or a small department’s go-to gun guy), or an SF guy that has to run ranges for the Third World, or a range officer at a range open to the public (almost the same thing).
We’ve all seen the stoppage you get when an overpressure round, or maybe a nasty chamber in an unlined barrel on a bargain-basement AR, solidly stuck. It’s like the thing brazed itself in there! It’s hard to get enough leverage on a charging handle to move the bolt carrier back and unlock that damn-near-welded bolt. If the carrier is fully forward, you can separate upper and lower and attack the carrier from underneath, but if it’s back just a few millimeters it’s hard to separate the upper and lower.
You can get a similar problem with a double-feed, commonly caused by crummy or worn-out magazines. Your gun is out of action until you can reduce the stoppage.
And then there’s the circumstance, when some schmo brings the seized rifle in to the shop after getting the case stuck and then letting it sit for three months in the salty sea breeze, hoping that time heals all wounds.
The US Tool & Design Manual Bolt Extraction Device is simplicity itself: a lever with a yoke at one end that can be inserted through the magazine well and pry the bolt carrier back. That lets you open things up and get the gun back into action, or at least, troubleshoot the problem. Here’s an image showing how it works, with the upper absent for clarity:
It’s available in three versions: compact 5.56mm and 7.62mm versions, and a double-ended dual-caliber variety. (Of course these will work with other calibers on the same platform, so order the 5.56 one for .300 BLK, for example; the critical sizes are the bolt and bolt carrier).
The dual-ended one is perfect for the shop workbench, and we could see the other attached by a clip to the rails on one’s field rifle. It would give you a way to clear this kind of stoppage in combat.
Here’s what they say about their tool, for which they’ve applied for a patent:
The Manual Bolt Extraction Device (MBED) is designed to be used in the event of a malfunction where you need direct access to the bolt carrier group (BCG) and the leverage provided by the charging handle is insufficient. The MBED is effectively used to clear the most common stoppages such as a double feed where the second round is wedged above the BCG. The MBED can also be used to clear an over pressured round or any stoppage where the casing is stuck in the chamber and has seized function of the rifle.
The MBED can be used to aide in any stoppage where direct access to the bolt carrier is needed. The AR-15/AR-10 platform does not allow for the user to have access to the bolt like the AK47, M1 Garand or M14 style rifles. The charging handle gives minimal leverage to the bolt carrier group and requires multiple tools and at least two individuals to clear these stoppages. The MBED is a single tool that a single individual can use to get the rifle back into working order in a short amount of time.
We’ve had a few interesting developments in home and small office firearms prototyping lately.
The 3D Printing Revolution is Over, Part I
In a way, the 3DP revolution is over. The revolutionaries won. Every firm in the industry that we have personal knowledge of, from the great (exchange-listed Ruger) to the small (single-digit prototype shops) is using 3D printing in prototype development or even in manufacturing. For example, Ruger’s investment-casting shop, which also casts for competitors and other third parties, Pine Tree Castings, is directly printing lost-wax patterns on two industrial printers; time, energy, and recycling effort are all signally reduced.
The firms that are not using this technology are very small, practically one-man shops, and even they are often using 3D computer design tools and CNC. For the same reason that even the starving writer in his garret is hammering on computer keys and not his granddad’s Underwood: new tools have produced an explosion in individual productivity.
Productivity and Computer Technology
Computers directly enable productivity. For example, imagine this blog in the pre-computer (or even, pre-Internet) era. The “posts” or items would be typed on paper, then reproduced into a newsletter, and mailed to subscribers. It would lose immediacy and volume for sure; it would take us much more work to produce much less.
Computers also indirectly enable productivity by increasing information flow, both in terms of volume and rate. (An ironic by-product of that is that a whole new application for computers became necessary: tools to search, sort and amplify what is to any particular user his desired signal amidst all the noise (some of which is pure noise, but most of which is someone else’s desired signal). Economists have had great success in recent decades by describing economic activity in terms of flows, not of 18th-Century concepts like capital and labor, but of information. Freeing the flow of information from unnatural restrictions generally benefits the society and the individual. It usually scares the pants of some people, especially the ones who used to be able to control the flows.
Computers moved much more slowly into actual production of tangible products, but they’re there now, and making a similarly revolutionary change on the factory floor that Steve Jobs promised to “knowledge workers” in 1983-5 when he introduced the Apple Lisa and, later, the Macintosh Office. Some of those ideas misfired in their first implementation (early Lisas and Macs are collectors’ items today), but the marketplace iterated rapidly and effectively and still does.
Today’s computer manufacturing technology is still relatively primitive, when compared to its potential; we’re about where Steve’s “Macintosh Office” was 30 years ago.
Meanwhile, in Washington DC & Around the World
Just as manufacturing of products becomes disintermediated and dissociated from large integrating manufacturing/marketing/distribution organizations, we have our version of a Luddite spectacle. A bunch of politicians, most of them captive of the economic and political concepts of prior centuries, are making a childish display of themselves, and demanding restrictions on production and ownership of a product, firearms. But they are asking the impossible: guns can be produced under the most precarious of conditions by the most primitive of shops. They do this because they want to redirect anger and retribution away from the actual generator of the recent outrage, Wahhabi/Salafi Islam, and towards targets whose destruction they would find more personally gratifying.
The guy who last changed your brake pads and wiper blades probably has everything in his shop necessary to produce automatic weapons. In fact, another terrorist outrage you may not have heard about recently occurred in Israel where two assclowns inspired by Islam attacked a restaurant with submachine guns.
Back in February, more homebrew SMGs were used in attacks on Israeli cops.
The SMGs, made under embargo conditions in clandestine workshops in the lawless Palestinian territories, were improvised weapons. (One of which did fail during the attack. Testing is an aspect of manufacturing that technology can’t replace).
You certainly heard about the murder of left-leaning British politician Jo Cox, in the land of no handguns, Great Britain. Cox was killed with a crude improvised pistol based on an ancient US Army improvised guns manual.
This next picture is not a TEC-9. Take a good look! It’s a clandestine-shop knock-off open-bolt SMG, seized by cops in Canada last year. Restrict all guns and “prohibit” the scary ones, as Canadian laws do, and this is what anyone who wants a gun might as well build. He’s as well hung for a sheep as a lamb, eh?
Here’s a shot of Browning-style pistols produced in a one-house clandestine factory in Talcher, Odisha, India that was seized by police in the summer of 2015.
And here’s video of a (US, legal) home-built .25 pistol.
Here’s the build of the same (18 minutes). Tools used include a drill press, welding equipment and circular and saber saws. He does use some well-chosen cutting tools, like end mills and reamers, and uses a rifling machine of his own manufacture. ses At one point he improvises an end mill from a drill bit (per the plans he is using). He uses the name “Clinton Westwood” which we’re sure is what his mother named him; his YouTube Channel, Clinton’s Cheap Workshop, is full of must-watch TV.
Clinton’s new adventure is making a larger, 1911-styled .380 blowback pistol. He just started in April and has made good progress, so go to the YouTube channel, click Videos, and enjoy.
You might want to archive the videos, in case YouTube (which is owned by Google, which is either owned by or owns the Clinton — Hillary, not Westwood — campaign) disappears them and unpersons Westwood in the future.
The 3D Printing Revolution is Over, Part II
In another way, the 3DP revolution is over. Many of the revolutionaries of the first wave have gone much more quiet, perhaps because they’re involved in other things, or perhaps for some other reason. Maybe they’re under pressure from a lawless DOJ determined to find terrorists everywhere except among Islamic terrorists!
Cody Wilson? Tied up in a lawsuit, his new book, and the GhostGunner project. Now, the project isn’t idle. Here’s a new video posted this week on the GG2:
But RollaTroll is still with us (even if his last tweet was a Weaponsman link a couple weeks ago).
And the thing is, it doesn’t matter if some of the original founders of the 3D printed arms movement 3+ years ago have gone silent, gone Hollywood, gone to ground, or gone underground: a new generation is supplementing, and where necessary, replacing them. And the new generation is larger, and the generation they energize will be exponentially larger still.
The genie’s out, and anybody waving a bottle and muttering get-back-in incantations at this point just looks ridiculous.
Here’s Guy In A Garage again, with a follow-up for the 3D printed prototype he cooked up that allowed AR-15 lower receiver parts to operate an H&K MP5 (he’s using a clone). We had his first video on the MP5/AR hybrid last Wednesday, so go there to catch up if you need to, before coming back to see Part II of this adventure in home manufacturing.
In Update 1, the lower is much more developed. It’s still missing one thing to be mature, though.
The one thing that’s missing? An ejector. The MP5 ejector is a quite ingenious thing that always provides a good stout kick
Guy in a Garage has been busy! He’s also posted 3D backup sights for 1″ scopes. The files are available at SendSpace; he got the idea from this article in Recoil, the gun magazine best remembered for its former anti-gun editor and Jack-the-Lad attitude.
And that’s not all. He also had this followup on a 10/22 receiver project…
… and a super-lightweight home-made carbon fiber handguard.
If you’re interested, you can follow all his videos here: