Improved Military Rifle

Last updated

Improved military rifle propellants are tubular nitrocellulose propellants evolved from World War I through World War II for loading military and commercial ammunition and sold to civilians for reloading rifle ammunition for hunting and target shooting. These propellants were DuPont modifications of United States artillery propellants. [1] [2] DuPont miniaturized the large artillery grains to form military rifle propellants suitable for use in small arms. These were improved during the First World War to be more efficient in rimless military cartridges replacing earlier rimmed rifle cartridges. Four-digit numbers identified experimental propellants, and a few successful varieties warranted extensive production by several manufacturers. Some were used almost exclusively for military contracts, or commercial ammunition production, but a few have been distributed for civilian use in handloading. [3] Improved military rifle propellants are coated with dinitrotoluene (DNT) to slow initial burning and graphite to minimize static electricity during blending and loading. They contain 0.6% diphenylamine as a stabilizer and 1% potassium sulfate to reduce muzzle flash. [4]

Contents

Specification 4831 packaged for retail distribution circa 1960. 1960s nitrocellulose rifle propellant canister.png
Specification 4831 packaged for retail distribution circa 1960.

Reaction mechanism

John Bernadou patented a single-base propellant while working at the Naval Torpedo Station in 1897. Bernadou's colloid of nitrocellulose with ether and alcohol was formulated for the reaction pressures generated within naval artillery. [2] The colloid was extruded in dense cylinders with longitudinal perforations to decompose in accordance with Piobert's law. If all external surfaces of the grain are ignited simultaneously, the grain reacts inward from the outside of the cylinder (creating a reaction area of decreasing size), and outward from each perforation (creating a reaction area of increasing size.) Propellant decomposition is initiated by heat causing the colloid to melt and form bubbles of reactive gas which decompose in a luminous exothermic reaction after the bubbles burst. Rate of reaction is controlled by heat transfer through the temperature gradient from the luminous reacting gas through the bubbles to the intact colloid. Heat transfer (and rate of reaction) is faster if the bubbles are under pressure, because heat transfer is more efficient through smaller bubbles. These propellants may not react satisfactorily at low pressures within the oxygen-deficient atmosphere of a gun barrel. [5]

Adaptation for use in military rifles

The United States Navy licensed use of the patent to DuPont for production of artillery propellant for ships operating in the Atlantic, and to California Powder Works for ships operating in the Pacific. The United States Army also used Bernadou's propellant for artillery and for the new M1903 Springfield service rifle in 1909 with the 150-grain (9.7 g) M1906 bullet. Grain size varied with bore diameter. While artillery grain dimensions might be several inches or centimeters, the standard grains of military rifle propellant were 0.085 inches (2.2 mm) long and 0.03 inches (0.76 mm) in diameter. The Army identified this military rifle propellant as Pyro DG (for diphenylamine, graphited), and 500 tons per day were manufactured by various plants through the first world war. [6]

Package labeling

Military rifle propellant was manufactured in batches in a procedure taking about two weeks [7] from treating cotton linters with nitric acid, through curing the extruded grains to evaporate excess ether and alcohol, and finally coating the dried grains with DNT and graphite. Each batch had somewhat different reaction rates, so testing was required to determine the appropriate charge to generate required reaction pressure in the intended cartridge. Test results were forwarded to the factory or arsenal assembling cartridges. [8] Propellants packaged in small sheet metal canisters for sale to civilians were labeled Military Rifle Powder to distinguish the product from low-density "bulk" propellants intended to react at lower pressures in shotguns or pistols and from Sporting Rifle Powder for early lever-action rifles unable to withstand the pressures of 20th-century service rifle cartridges. Charges of low-density "bulk" propellants were often similar to the volumes of gunpowder used in older firearms and reaction rates were less variable at low pressures appropriate for those cartridges; [9] but each batch of military rifle propellant required a different canister label specifying the batch or lot number with the tested charge weight to generate appropriate reaction pressure in intended cartridges.

Improvements

Orders from countries fighting World War I required determining charges for different European military rifle cartridges, and production volume supported research for improvements. Improved military rifle propellants included a longitudinal perforation converting each grain to a tube with a progressive burning interior surface allowing a more consistent gas generation rate through the reaction period. Early propellants were identified by a two-digit number. As the number of experimental variations increased, each improved military rifle propellant was identified by a four-digit number. In addition to the canisters available from DuPont, the Director of Civilian Marksmanship (DCM) sold surplus improved military rifle propellants to members of the National Rifle Association of America. [10] By 1936 improved DuPont process control produced batches conforming to published reloading data rather than requiring different charge specifications for each batch; [11] and those propellants have remained in production. Non-conforming batches were used to load commercial and military cartridges following traditional testing procedures.

World War II

Wartime temporarily interrupted production of civilian specification propellants, as major quantities of new specifications were manufactured. Number 4831 was used to load navy anti-aircraft machine gun ammunition, and number 4895 was used to load United States service rifle ammunition. As these propellants became military surplus after the war, large quantities of different batches were blended together to make products with uniform average performance for sale to civilians. Manufacture of these specifications for civilian use resumed after military surplus had been exhausted; but reaction characteristics were slightly different from the products distributed from military surplus supplies. [12]

Specification numbers

NumberDate ReleasedDate DiscontinuedGrain SizeNotes
151914~1917standarddesigned for .276 Enfield; replaced by 1015 [13]
161916~1927standardidentified as NCZ when used for loading British machine gun ammunition; production for civilian sales continued after World War I [14]
1719151925standardused to load various European service rifle cartridges and distributed as military surplus after World War I [15]
17 1/219231933standardadded tin to specification 16 to reduce fouling from cupronickel-jacketed bullets; replaced by 3031 [16]
1819151930short [17]
101519191934standardlabeled 15 1/2; added tin to specification 15 to reduce fouling from cupronickel-jacketed bullets; replaced by 4064 [16]
114719231935shortfor military cartridges like the .30-06 Springfield and the 7.92×57mm Mauser; replaced by 4320 [15]
118519261938standardused to load the 173-grain (11.2 g) .30-06 Springfield M1 bullet; sold as military surplus by DCM [15]
120419251935thin & shortreplaced by 4227 [15]
30311934standardreplaced 17 1/2; [18] for mid-range loads and medium sporting and military cartridges like the .257 Roberts, .30-30 and .348 Winchester [11]
40641935standardreplaced 1015; [19] for magnum capacity cartridges like the .250-3000 Savage, .35 Whelen and .375 H&H Magnum [11]
41981935thinintended for short range loads and medium capacity cartridges like the .300 Savage, .32 Remington, and .32 Winchester Special [11] [19]
42271935thin & shortreplaced 1204; [20] for small capacity cartridges like the .22 Hornet, .25-20, and .32-20 [11]
43201935shortreplaced 1147 [21] for large capacity sporting and military cartridges like the .220 Swift, .270 Winchester and .30-06 [11]
43501940standard [4]
44751936used to load military 7.62×51mm NATO and 5.56×45mm NATO cartridges during the Cold War [22]
4814used to load .50 machine gun cartridges
48311973standardused to load Oerlikon 20 mm cannon cartridges through World War II; salvaged propellant became available to civilians about 1949; [23] contains 1.1% diphenylamine (0.5% more than other improved military rifle propellants.) [4]
48951962shortenedused to load the 152-grain (9.8 g) .30-06 Springfield M2 bullet through World War II; sold as military surplus after World War II. [4]

IMR® is a registered trademark of the IMR Powder Company assigned to the Hodgdon Powder Company, which markets powders under that name. [24]

See also

Sources

Notes

  1. "The IMR Story". IMR Powder. Hodgdon Powder Company. Archived from the original on February 2, 2023.
  2. 1 2 Davis pp.296&297
  3. Sharpe pp.148&163-172
  4. 1 2 3 4 Davis, William C., Jr. Handloading (1981) National Rifle Association of America pp.31–32
  5. "Propellant Properties" (PDF). Nevada Aerospace Science Associates. Archived from the original (PDF) on 26 July 2014. Retrieved 19 July 2014.
  6. Sharpe pp.164&165
  7. Sharpe p.7
  8. Fairfield pp.35-41
  9. Hatcher, Julian S; Barr, Al; Neumann, Charles L. (1951). Handloading. Vol. 1. Washington, DC: National Rifle Association of America. pp. 36&38.
  10. Sharpe, Philip B. (1953). Complete Guide to Handloading (3rd ed.). New York: Funk & Wagnalls. p. 170.
  11. 1 2 3 4 5 6 DuPont Better Loads for Better Shooting (1936) E.I. duPont de Nemours & Company pp.5&6
  12. Hagel, Bob Propellant Profiles (1982) Wolfe Publishing Company p.113 ISBN   0-935632-10-7
  13. Sharpe p.166
  14. Sharpe pp.166&167
  15. 1 2 3 4 Sharpe p.170
  16. 1 2 Sharpe p.168
  17. Sharpe p.167
  18. Sharpe pp.170&171
  19. 1 2 Sharpe p.171
  20. Sharpe p.172
  21. Sharpe pp.171&172
  22. Watters, Daniel E. "The Great Propellant Controversy". The Gun Zone. Archived from the original on 22 July 2013. Retrieved 29 June 2013.
  23. Knox, Neal Propellant Profiles (1982) Wolfe Publishing Company pp.45–46 ISBN   0-935632-10-7
  24. "Trademark Electronic Search System (TESS)". 24 September 2002. Retrieved 13 February 2015.

Related Research Articles

Handloading, or reloading, is the practice of making firearm cartridges by assembling the individual components, rather than purchasing mass-assembled, factory-loaded ammunition.

<span class="mw-page-title-main">Cartridge (firearms)</span> Pre-assembled firearm ammunition consisting of a casing, projectile, propellant, and primer

A cartridge, also known as a round, is a type of pre-assembled firearm ammunition packaging a projectile, a propellant substance and an ignition device (primer) within a metallic, paper, or plastic case that is precisely made to fit within the barrel chamber of a breechloading gun, for convenient transportation and handling during shooting. Although in popular usage the term "bullet" is often used to refer to a complete cartridge, the correct usage only refers to the projectile.

<span class="mw-page-title-main">.38 Special</span> Revolver cartridge designed by Smith & Wesson

The .38 Special, also commonly known as .38 S&W Special, .38 Smith & Wesson Special, .38 Spl, .38 Spc, or 9x29mmR is a rimmed, centerfire cartridge designed by Smith & Wesson.

<span class="mw-page-title-main">Centerfire ammunition</span> Type of ammunition that is commonly found in small-, medium-, and large-caliber firearms

A centerfire cartridge is a firearm metallic cartridge whose primer is located at the center of the base of its casing. Unlike rimfire cartridges, the centerfire primer is typically a separate component seated into a recessed cavity in the case head and is replaceable by reloading.

<span class="mw-page-title-main">.357 Magnum</span> Revolver cartridge

The .357 Smith & Wesson Magnum, .357 S&W Magnum, .357 Magnum, or 9×33mmR is a smokeless powder cartridge with a 0.357 in (9.07 mm) bullet diameter. It was created by Elmer Keith, Phillip B. Sharpe, and Douglas B. Wesson of firearm manufacturers Smith & Wesson and Winchester. The .357 Magnum cartridge is notable for its highly effective terminal ballistics.

<span class="mw-page-title-main">Smokeless powder</span> Type of propellant

Smokeless powder, also referred to as gunpowder, is a type of propellant used in firearms and artillery that produces less smoke and less fouling when fired compared to black powder. The combustion products are mainly gaseous, compared to around 55% solid products for black powder. In addition, smokeless powder does not leave the thick, heavy fouling of hygroscopic material associated with black powder that causes rusting of the barrel.

<span class="mw-page-title-main">.223 Remington</span> Firearms cartridge

The .223 Remington is a rimless, bottlenecked, centerfire rifle cartridge. It was developed in 1957 by Remington Arms and Fairchild Industries for the U.S. Continental Army Command of the United States Army as part of a project to create a small-caliber, high-velocity firearm. The .223 Remington is considered one of the most popular common-use cartridges and is currently used by a wide range of semi-automatic and manual-action rifles.

The .30-06 Springfield cartridge, 7.62×63mm in metric notation, and called the .30 Gov't '06 by Winchester, was introduced to the United States Army in 1906 and later standardized; it remained in military use until the late 1970s. In the cartridge's name, ".30" refers to the nominal caliber of the bullet in inches; "06" refers to the year the cartridge was adopted, 1906. It replaced the .30-03 Springfield, 6mm Lee Navy, and .30-40 Krag cartridges. The .30-06 remained the U.S. Army's primary rifle and machine gun cartridge for nearly 50 years before being replaced by the 7.62×51mm NATO and 5.56×45mm NATO, both of which remain in current U.S. and NATO service. The cartridge remains a very popular sporting round, with ammunition produced by all major manufacturers.

<span class="mw-page-title-main">.25-06 Remington</span> US hunting rifle cartridge

Considered by many as the most balanced of the "quarter bores" for hunting medium-sized game, the .25-06 Remington remained in obscurity as a wildcat cartridge for nearly half a century before being standardized by Remington in 1969.

<span class="mw-page-title-main">.458 Winchester Magnum</span> Rifle cartridge

The .458 Winchester Magnum is a belted, straight-taper cased, Big Five game rifle cartridge. It was introduced commercially in 1956 by Winchester and first chambered in the Winchester Model 70 African rifle. It was designed to compete against the .450 Nitro Express and the .470 Nitro Express cartridges used in big bore British double rifles. The .458 Winchester Magnum remains one of the most popular large game cartridges, and most major ammunition manufacturers offer a selection of .458 ammunition.

<span class="mw-page-title-main">.30-30 Winchester</span> Rifle cartridge designed by the Winchester Repeating Arms Company

The .30-30 Winchester cartridge was first marketed for the Winchester Model 1894 lever-action rifle in 1895. The .30-30, as it is most commonly known, along with the .25-35 Winchester, was offered that year as the United States' first small-bore sporting rifle cartridges designed for smokeless powder. Since its introduction, it has been utilized alongside the development of flatter shooting cartridges, most prominently those derived from designs subsidized by interest in military expenditures, yet the .30-30 has remained in widespread use almost entirely because of reliable effectiveness in civilian applications, proven by putting food on the table for millions of people within a practical range of hunting situations.

<span class="mw-page-title-main">7.5×55mm Swiss</span> Swiss rifle cartridge

The 7.5×55mm Swiss or 7,5mm GP 11 is a cartridge developed for the Swiss Army. It originated from the Gewehrpatrone 1890 (7.5×53.5mm) developed in 1898 by mechanical engineer Lt. Col. Eduard Rubin for rifles based on Rudolf Schmidt's action design. The 7.5×55mm Swiss GP 11 cartridge is similar in appearance to the slightly smaller 7.5×54mm French round though the two are not interchangeable.

<span class="mw-page-title-main">Black powder substitute</span> Replacement for black powder

A black powder substitute or gunpowder substitute is a replacement for black powder (gunpowder) used in muzzleloading and cartridge firearms. Black powder substitutes have slightly different properties from gunpowder and are subject to different restrictions. Compared to gunpowder, black powder substitutes may have reduced sensitivity as an explosive, increased efficiency as a propellant powder, different density, and/or reduced ignition efficiency.

<span class="mw-page-title-main">Hodgdon Powder Company</span>

The Hodgdon Powder Company began in 1952 as B.E. Hodgdon, Inc., and has become a major distributor of smokeless powder for the ammunition industry, as well as for individuals who load their own ammunition by hand. The company's corporate office and manufacturing facilities are located in Kansas, United States. Hodgdon acquired IMR Powder Company in 2003. Winchester branded reloading powders have been distributed in the United States by Hodgdon since March 2006.

<span class="mw-page-title-main">.275 H&H Magnum</span> Rifle cartridge

The .275 Holland & Holland Magnum is a semi-obsolete rifle cartridge similar to the 7mm Remington Magnum. Essentially the .275 Holland & Holland Magnum is a necked down shortened variant of the .375 Holland & Holland Magnum. It was introduced by the British company Holland & Holland with the .375 Holland & Holland Magnum that was introduced in 1912 as the .375 Belted Rimless Nitro-Express. The .375 Holland & Holland Magnum was intended for dangerous African game animals, while the .275 Holland & Holland Magnum was intended for longer range shooting of antelope in Africa and Red Stag in the highlands of Scotland.

The .276 Enfield (7×60mm) was an experimental rebated rim bottlenecked centerfire military rifle cartridge developed in conjunction with the Pattern 1913 Enfield (P'13) rifle. Development was discontinued by the onset of World War I.

Ball propellant is a form of nitrocellulose used in small arms cartridges. Ball propellant can be manufactured more rapidly with greater safety and less expense than extruded propellants.

<span class="mw-page-title-main">.45-75 Winchester</span> Rifle cartridge

The .45-75 WinchesterCentennial is a centerfire rifle cartridge developed in 1876 for the newly designed Winchester Model 1876 Centennial lever-action rifle. Winchester Repeating Arms Company introduced the rifle and cartridge at the United States Centennial Exposition. The Model 1876 rifle used an enlarged version of the famous Winchester Model 1873 action to offer a lever-action repeating rifle using cartridges suitable for big-game hunting. The cartridge and rifle enjoyed brief popularity with Gilded Age American hunters including Theodore Roosevelt, and was issued to the Canadian North-West Mounted Police and to Texas Rangers.

<span class="mw-page-title-main">IMR Legendary Powders</span>

IMR Legendary Powders is a line of smokeless powders which are popularly used in sporting and military/police firearm cartridges. The initials 'IMR' stand for Improved Military Rifle powder. IMR powders makes a line of various types of smokeless powder suitable for loading many cartridges for rifles, handguns, and shotguns.

<span class="mw-page-title-main">Powder measure</span>

A powder measure is a device for dispensing consistent amounts of smokeless powder or black powder as charges for handloading cartridges used as small arms ammunition.

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.