.357 Magnum

.357 Magnum
357 Magnum.jpg
.357 Magnum ammunition
Type Handgun/Carbine
Place of origin United States
Production history
Designer Elmer Keith and Phillip B. Sharpe
Designed 1934
Specifications
Parent case .38 Special
Case type Rimmed, straight
Bullet diameter .357 in (9.1 mm)
Neck diameter .379 in (9.6 mm)
Base diameter .379 in (9.6 mm)
Rim diameter .440 in (11.2 mm)
Rim thickness .060 in (1.5 mm)
Case length 1.29 in (33 mm)
Overall length 1.59 in (40 mm)
Primer type Small pistol, magnum
Maximum pressure 44,000 psi (300 MPa)
Ballistic performance
Bullet weight/type Velocity Energy
125 gr (8.1 g) Bonded Defense JHP 1,600 ft/s (490 m/s) 710 ft·lbf (960 J)
130 gr (8.4 g) JHP 1,410 ft/s (430 m/s) 574 ft·lbf (778 J)
158 gr (10.2 g) Buffalo Bore Heavy 1,485 ft/s (453 m/s) 774 ft·lbf (1,049 J)
180 gr (12 g) WFNGC Hard Cast 1,300 ft/s (400 m/s) 676 ft·lbf (917 J)
200 gr (13 g) WFNGC Hard Cast 1,200 ft/s (370 m/s) 640 ft·lbf (870 J)
Test barrel length: 4 in (102 mm) (vented)
Source: Federal[1], DoubleTap Ammunition[2]
Marlin Model 1894C—a carbine in .357 Magnum that is a companion to revolvers.
Smith & Wesson Model 686-P and 8"-barrel 686 Silhouette .357 Magnum revolvers.

The .357 S&W Magnum, or simply .357 Magnum, is a revolver cartridge created by Elmer Keith, Phillip B. Sharpe,[3] Colonel D. B. Wesson[3] of firearms manufacturer Smith & Wesson, and Winchester.[4][5] It is based upon Smith & Wesson's earlier .38 Special cartridge. The .357 Magnum cartridge was introduced in 1934, and its use has since become widespread. This cartridge started the "Magnum" era of handgun ammunition.[6] This cartridge has sufficient energy to produce hydrostatic shock (remote wounding effects) in living targets,[7] which probably contributes to its positive reputation for stopping power.[8]

Contents

Design

The .357 Magnum was collaboratively developed over a period in the early to mid-1930s by a group of individuals in a direct response to Colt's .38 Super Automatic. At the time, the .38 Super was the only American pistol cartridge capable of defeating automobile cover and the early ballistic vests that were just beginning to emerge in the post-World War I "Gangster Era."[4] Tests at the time revealed that those vests defeated any handgun cartridge traveling at less than about 1000 ft/s. Colt's .38 Super Automatic just edged over that velocity and was able to penetrate car doors and vests that bootleggers and gangsters were employing as cover. [9]

Though .38 and .357 would seem to be different-diameter chamberings, they are in fact identical. 0.357 inch is the true bullet diameter of the .38 Special cartridge as well. The .38 Special nomenclature relates to the previous use of heeled bullets (such as the .38 Long Colt), which were the same diameter as the case. Thus, the only external difference in the two cartridges is a slight difference in length, solely for safety purposes as explained below.

Much credit for the .357's early development is given to hunter and experimenter Elmer Keith. Keith's early work in loading the .38 Special to increasingly higher pressure levels was made possible by the availability of heavy, target shooting-oriented revolvers like the Smith & Wesson 38/44 "Heavy Duty" and "Outdoorsman", .38-caliber revolvers built on .44-caliber frames. The .38-44 HV load, used the .38 Special cartridge loaded to a much higher velocity than standard .38 Special ammunition. The .38-44 revolvers were made by using a .44 Special size gun with the barrel and cylinder bored to .357 caliber (the true bullet diameter of the .38 Special). Since the frame, cylinder, and barrel were much stronger than the standard .38 Special components, it was capable of withstanding much higher pressures. The .38-44 HV round, while no longer available, was in most cases the equal of the later .357 Magnum, which works at more than double the pressure of standard .38 Special. The .357 Magnum addresses the safety issues earlier cartridges had by stretching the case by approximately 1/8th of an inch, preventing the high pressure .357 cartridge from chambering in a firearm designed for the shorter, lower pressure .38.[10] Elmer Keith also contributed the Keith-style bullet, which increased the mass of bullet located outside of the cartridge, while leaving more room inside the cartridge for powder. The Keith bullet also employed a large, flat meplat, thus enabling rapid energy transfer for greater wounding properties. At the same time, this bullet design does not deform like a hollow point, and as a result achieves greater penetration. These characteristics of the Keith bullet make it very suitable for hunting applications as well as target shooting.

In order to reassert itself as the leading law enforcement armament provider, Smith & Wesson developed the .357 Magnum, with Colonel D. B. Wesson leading the effort within Smith & Wesson, along with considerable technical assistance from Phillip B. Sharpe, a member of the Technical Division Staff of the National Rifle Association. The new round was developed from Smith & Wesson's existing .38 Special round. It used a different powder load, and ultimately the case was extended by 1/8th of an inch (0.125 in, 3.18 mm). The case extension was more a matter of safety than of necessity. Because the .38 Special and the early experimental .357 Magnum cartridges loaded by Keith were identical in physical attributes, it was possible to load an experimental .357 Magnum cartridge in a .38 Special revolver, with potentially disastrous results. Smith & Wesson's solution, of extending the case slightly, made it impossible to chamber the magnum-power round in a gun not designed for the additional pressure.[4]

The choice of bullet for the .357 Magnum cartridge varied during its development. During the development at Smith & Wesson, the original Keith bullet was modified slightly, to the form of the Sharpe bullet, which itself was based upon the Keith bullet, but which had 5/6 of the bearing surface of the Keith bullet, Keith bullets typically being made oversized and sized down. Winchester, however, upon experimenting further during the cartridge development, modified the Sharpe bullet shape slightly, while keeping the Sharpe contour of the bullet. The final choice of bullet was hence based upon the earlier Keith and Sharpe bullets, while additionally having slight differences from both.[11]

Performance

This cartridge is regarded by many as an excellent self-defense round. It still enjoys a reputation of being the gold standard of stopping power among handgun cartridges and an "extremely reliable one shot stopper."[12] For big game, such as ungulates and bears, which have a substantially sturdier build than humans, it is inferior to the .500 Smith & Wesson, .50 Action Express, .44 Magnum, .454 Casull, .41 Magnum and other larger magnum rounds. Still, it is a fine small and medium game round and will kill deer very reliably at reasonable ranges if the right loads (140 grain and heavier hollow-point bullets, and solid semiwadcutter bullets) are carefully used by a competent marksman. For further comparison, the .357 Magnum has a higher velocity at 100yds, than its parent .38 special has at the muzzle. [13] Its stopping power on game is similar to the .45 Colt and has a flatter trajectory. It is a very versatile cartridge, and can be used with success for self-defense, plinking, hunting, or target shooting.[14]

Revolvers in .357 Magnum caliber have the significant advantage of also being able to fire .38 Special ammunition, with its lower cost, recoil, noise, and muzzle flash. This trait makes .357 revolvers ideal for novice shooters who are not yet used to firing full-strength .357 loads but do not want the expense of buying a second lower-powered gun to train with. However, a .38 Special should not generally be used with any .357 automatic handgun or rifle, such as the Magnum Research Desert Eagle.

It has also become popular as a "dual use" cartridge in short, light rifles like the American Old West lever-actions. In a rifle, the bullet will exit the barrel at about 1,800 feet per second (550 m/s)[15], making it far more versatile than the .30 Carbine or the .32-20 Winchester. In the 1930s, it was found to be very effective against steel ballistic vests, and metal-penetrating rounds were once popular in the United States among highway patrol and other police organizations. The .357 revolver has been largely replaced by modern, high-capacity semi-automatic pistols for police use, but is still very popular for backup gun use, and among outdoorsmen, security guards, and civilians for self-defense and hunting.it is becoming one of,if not the,most common cartridges for cowboy action shooting.

Some common performance parameters are shown in the table below for several .357 Magnum loads. Bullet weights from 125 to 158 grains are common. 125 grain JHP loads are popular for self-defense; whereas, heavier loads are usually used for hunting. Loads are available with energies from just over 400 (ft•lbf) to over 700 (ft•lbf), and penetration depths from 9 inches to over 27 inches are available for various applications and risk assessments. The Marshall and Sanow "one-shot stop" rating varies from 68% for the non-expanding semiwadcutter which produces a ballistic pressure wave of 372 psi to nearly 96% for the well-known Federal 125 grain JHP which produces a ballistic pressure wave of 1487 psi. The average incapacitation times (for a 170 lb male shot in the center of the chest) vary from 5.7 to 11.4 seconds.

Manufacturer Load Mass (grains) Velocity (ft/s) Energy (ft•lbf) Expansion (inches) Penetration (inches) BPW[16] (psi) PC[17] (in3) TSC[17] (in3) OSS[17] AIT[16] (sec)
American Quik-Shok JHP 125 1409 551 fragment 9.0 1169 2.7 47.5 88.6%[18] 6.4
Double Tap Gold Dot JHP 125 1600 711 0.69 12.75 1064 4.8 69.3 (est) 91.3%[18] 6.7
Federal Classic JHP 125 1450 584 0.65 12.0 1487 4.0 79.8 95.8% 5.7
Remington Golden Saber JHP 125 1220 413 0.60 13.0 607 3.7 30.4 81.7%[18] 8.9
Remington Semiwadcutter 158 1235 535 0.36 27.5 372 2.8 12.9 67.6% 11.4
Winchester Silvertip JHP 145 1290 536 0.65 14.3 716 4.7 33.7 84.5% 8.2

Key: Expansion – expanded bullet diameter (ballistic gelatin). Penetration – penetration depth (ballistic gelatin). BPW – ballistic pressure wave associated with remote wounding effects known as hydrostatic shock. PC – permanent cavity volume (ballistic gelatin, FBI method). TSC – temporary stretch cavity volume (ballistic gelatin). OSS – Marshall and Sanow “one-shot stop” rating. AIT – Average incapacitation time, time from hit in the center of the chest until incapacitation for 170 lb male as determined from ballistic pressure wave model.

Comparison

1956 made Colt "357" Magnum
.357 Magnum Colt Python revolver

The .357 Magnum was a direct competitor with the .38 Super, which was designed for semi-automatic pistols. Ballistic performance for the two rounds is very similar. However since the .357 is usually chambered in revolvers, it can be shot in barrels longer than one would normally find in automatics, giving it an increase in performance.

In terms of accuracy, the .357 Magnum has at least the same potential for precision shooting as the benchmark .38 Special wadcutter round—indeed, a good .357 Magnum revolver will happily shoot .38 Special wadcutter ammunition with good results. It is this accuracy and power, and the versatility of also being capable of using less-expensive, milder .38 Special ammunition, that makes a .357 Magnum revolver an excellent gun for many different disciplines, from 20 yard (18.28 m) precision shooting to long range falling-plate events. It is an excellent round for those considering handloading ammunition, as it is economical and consistently performs well.

As mentioned above, the .357 Magnum was developed from the earlier .38 Special. This was possible because the .38 Special was originally designed to use black powder, which requires two to five times as much powder by weight to produce the same velocity with the same bullet as does the much more efficient smokeless powder. Thus the .38 Special has a relatively large case. The 9 mm Para was introduced the same year (1902) but was originally designed for smokeless powder, and for higher pressures (~39,200 psi). It therefore produces considerably more energy than the .38, despite its case having less than 1/2 the powder capacity. Most 9 mm powder charges fill the case to the base of the bullet, and some are heavily compressed. Many .38 Special loads use the same powders, in similar charge weights, but because the case is so much larger, those charges only fill the case about half full. Light target loads with fast burning powders may only fill the case perhaps 1/8 full. Filling the case with slower-burning powders produces much more power, but also much more pressure; far too much pressure for older, smaller-frame revolvers chambered in .38 Special. It was to accommodate these high-pressure, high-power loads that the longer .357 Magnum, together with the stronger revolvers designed to handle it, were developed.

Synonyms

See also

References

  1. Federal Cartridge Co. ballistics page
  2. "DoubleTap Ammunition". Archived from the original on 2009-05-16. http://www.webcitation.org/5gp2TRE81. Retrieved 2009-05-13. 
  3. 3.0 3.1 Sharpe, Phillip B. (1937). Complete Guide to Handloading. Funk & Wagnalls. pp. 405–406. 
  4. 4.0 4.1 4.2 Metcalf,, Dick (February 2000). "The 20th Century's Top Handgun Cartridges". Shooting Times. http://hunting.about.com/od/guns/l/aasthandguncara.htm. 
  5. Barnes, Frank C. (2006) [1965]. Skinner, Stan. ed. Cartridges of the World (11th ed.). Iola, Wisconsin: Gun Digest Books. p. 299. ISBN 0-89689-297-2. 
  6. Hawks, Chuck. "The .357 Magnum". Reloading Information. Guns and Shooting Online. http://www.chuckhawks.com/357magnum.htm. 
  7. Scientific Evidence for Hydrostatic Shock http://arxiv.org/ftp/arxiv/papers/0803/0803.3051.pdf
  8. Marshall EP and Sanow EJ: Stopping Power. Paladin,Boulder, CO, 2001.
  9. Ayoob, Massad (March 2001). ".38 Super". Guns Magazine. http://www.findarticles.com/p/articles/mi_m0BQY/is_3_47/ai_70650308. Retrieved 2008-09-05. 
  10. Taylor, Chuck (May 2000). ".38-44 HV: The Original Magnum - revolver round". Guns Magazine. http://www.findarticles.com/p/articles/mi_m0BQY/is_5_46/ai_60897647/pg_2. 
  11. Sharpe, Phillip B. (1937). Complete Guide to Handloading. Funk & Wagnalls. pp. 293–294. 
  12. "Chuck Hawks shares his conclusions about handgun stopping power.". Archived from the original on 2009-04-19. http://www.webcitation.org/5g9h0Y8wK. Retrieved 2009-04-03. 
  13. Taylor, Jim. "The Three-Fifty-Seven Magnum's in My Life". Leverguns.com. http://www.leverguns.com/articles/taylor/357magnum.htm. 
  14. "The Versatile .357 Magnum" by Chuck Hawks (subscription required)
  15. Ballistics By The Inch .357 magnum results
  16. 16.0 16.1 From model in Courtney A, Courtney M: Links between traumatic brain injury and ballistic pressure waves originating in the thoracic cavity and extremities. Brain Injury 21(7): 657–662, 2007.
  17. 17.0 17.1 17.2 Marshall and Sanow, Street Stoppers, Appendix A, Paladin 2006
  18. 18.0 18.1 18.2 Estimated from model in http://arxiv.org/ftp/physics/papers/0701/0701266.pdf

External links