Spitzer (bullet)

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1888 pattern M/88 (left) alongside the 1903 pattern 7.92x57mm Mauser S Patrone 8x57.jpg
1888 pattern M/88 (left) alongside the 1903 pattern 7.92×57mm Mauser S Patrone
21st-century plastic-tipped bullets. Ballistic Tips: Hornady 17 gr. V-Max 17HMR, .308 Winchester Unknown Manufacturer Plastic-tipped bullets are a type of rifle bullet meant to confer the aerodynamic advantage of the spitzer bullet (for example, see very-low-drag bullet) and the stopping power of a hollow-point bullet. Ballistic Tip.JPG
21st-century plastic-tipped bullets. Ballistic Tips: Hornady 17 gr. V-Max 17HMR, .308 Winchester Unknown Manufacturer Plastic-tipped bullets are a type of rifle bullet meant to confer the aerodynamic advantage of the spitzer bullet (for example, see very-low-drag bullet) and the stopping power of a hollow-point bullet.

The spitzer bullet (or spire point) is a pointed projectile that is primarily used in small-arms. The pointed nose shape, which was developed for military purposes in the late 19th and early 20th century, was a major design improvement compared to earlier rounder or flatter-tipped bullets because pointed nose shapes were less susceptible to external ballistic factors like drag. By adding a point, projectiles made for fully-powered and intermediate rifle cartridges obtain a lower drag coefficient, which makes them decelerate less rapidly. Lowering the drag coefficient leads to improved external ballistic behaviour. [1]

Contents

The development of spitzer bullets and long-range volley sights for service rifles changed military doctrines. Area targets at ranges up to 1,420–2,606 m (1,550–2,850 yd) could be subject to rifle fire. With improvements in machine guns at the turn of the 20th Century, the addition of clinometers meant that fixed machine gun squads could deliver plunging fire or indirect fire at more than 3,000 m (3,280 yd). The indirect firing method exploits the maximal effective range, that is defined by the maximum range of a small-arms projectile while still maintaining the minimum kinetic energy required to put unprotected personnel out of action, which is generally believed to be 15 kilogram-meters (147 J / 108 ft⋅lbf). [2]

Spitzer bullets greatly increased the lethality of the battlefields of World War I. Before, during and after World War I, militaries adopted even more aerodynamically refined spitzer projectiles by combining a pointed nose with a slightly tapered base at the rear, called a boat tail, which further reduced drag in flight. [3] These projectiles were known as spitzer boat-tail bullets which increased the terminal maximum ranges of fully-powered rifle cartridges to between 4,115 and 5,500 m (4,500 and 6,010 yd).

Etymology

The name "spitzer" is an anglicized form of the German word Spitzgeschoss, literally meaning "pointed projectile".

History

Design requirements

From the mid to late 19th century, European military research had started to examine how to maximise available small arms muzzle velocity through improved projectile design. Stronger metal casings were being used to contain cartridge propellants, making small arms more powerful but not any more accurate. Designers knew that bullets with a lower drag coefficient (Cd) would decelerate less rapidly and therefore travel further. A lower drag coefficient also flattens the projectile's trajectory, making it more stable in flight and less susceptible to lateral drift caused by crosswinds. By retaining a higher impact velocity, bullets with high ballistic coefficients would retain more kinetic energy and be lethal at greater ranges. It was these requirements that drove military thinking in the years prior to the First World War.

1898

8mm Lebel Douai-01.jpg
Loaded with 1886 pattern balle M
8mm Lebel Tarbes-01.jpg
Loaded with 1898 pattern balle D
8×50mmR Lebel service cartridges
Technical drawings of the French 1898 pattern Balle D bullet Balle D.jpg
Technical drawings of the French 1898 pattern Balle D bullet

France

The spitzer bullet design was first introduced in 1898 as the Balle D by the French Army. The Balle D bullet was designed by Captain Georges Raymond Desaleux, in order to improve the ballistic performance of the existing French 8×50mmR Lebel service cartridge of 1886.

The original 1886 pattern 8×50mmR Lebel cartridge was an innovative service cartridge design, since it was the first military cartridge to use single-base smokeless, nitrocellulose based, (Poudre B) gunpowder as developed by Paul Vieille in 1884. The original 1886 pattern 8×50mmR Lebel was loaded with a 15.0 grams (231 gr) cupro-nickel-jacketed lead-cored flat-nosed wadcutter-style Balle M bullet designed by lieutenant colonel Nicolas Lebel achieving a muzzle velocity of 628 m/s (2,060 ft/s).

The new 1898 pattern 8×50mmR Lebel cartridge loaded with Desaleux's new lighter 12.8 grams (198 gr)Balle D brass mono-metal spitzer bullet achieved a muzzle velocity of 700 m/s (2,300 ft/s), providing a somewhat flatter trajectory and a greatly improved maximum effective range. Besides having a pointed nose section the Balle D was also the first military rifle projectile that had a boat tail – a streamlined tapered base – to further minimize air resistance in flight. [4]

Downrange performance

The 1898 pattern 8×50mmR Lebel Balle D spitzer nose profile combined with the boat tail resulted in a ballistic coefficient (G1 BC) of 0.568 to 0.581 (ballistic coefficients are somewhat debatable). Fired at 700 m/s (2,300 ft/s) muzzle velocity the Balle D bullet retained supersonic velocity up to and past 800 m (870 yd) (V800Mach 1.13) under ICAO Standard Atmosphere conditions at sea level (air density ρ = 1.225 kg/m3) and had a maximum terminal range of approximately 4,400 m (4,812 yd). Even by 21st century standards 800 m (870 yd) typical effective supersonic range is regarded as normal for a standard military rifle round. [note 1]

1886 pattern 8×50mmR Lebel Balle M load
Distance (m)0200400600800100015002000
Trajectory (m)00.140.812.395.279.8331.7175.61
Velocity (m/s)628488397335290255197160
1898 pattern 8×50mmR Lebel Balle D load
Distance (m)0200400600800100015002000
Trajectory (m)00.120.541.433.015.6018.3044.0
Velocity (m/s)700607521448388342278240

The downrange performance tables above show the superior velocity retention of the Balle D compared with its Balle M predecessor
Note: The air density ρ used to correlate these tables is unknown.

In 1932, 8×50mmR Lebel Balle N ammunition was introduced, which featured a lead-cored, cupro-nickel-over-steel-jacketed, pointed boat-tail bullet weighing 15.0 g (232 grains). It had been designed to improve the long-range performance of the issued Hotchkiss Mle 1914 machine guns.

1902–1918

German Empire

Ballistic tables for the 1903 pattern S Patrone and the further improved 1914 pattern s.S. Patrone fired from a 600 millimetres (23.6 in) barrel. Karabiner 98k ballistics.png
Ballistic tables for the 1903 pattern S Patrone and the further improved 1914 pattern s.S. Patrone fired from a 600 millimetres (23.6 in) barrel.
A 1914 pattern 7.92x57mm Mauser s.S. Patrone (schweres Spitzgeschoss / heavy pointed bullet) boat-tailed full metal jacket bullet Bullet 7-92Mauser.JPG
A 1914 pattern 7.92×57mm Mauser s.S. Patrone (schweres Spitzgeschoß / heavy pointed bullet) boat-tailed full metal jacket bullet

In Germany the Gewehr-Prüfungskommission (G.P.K.) (Rifle Testing Commission) was responsible for improving the accuracy and performance of the 1888 pattern military M/88 ammunition and Germany's weapons chambered for M/88 ammunition like the Gewehr 1888. During a late 19th and early 20th century improvement program tasked with remedying the M/88's propellant compression and excessive barrel (grooves) wear problems, the German ordnance authority began to prefer spitzer bullets by 1898.

A new Spitzgeschoß aerodynamic bullet, credited to the independent ballistician Arthur Gleinich, was tested in 1902 and officially adopted on 3 April 1903. After several shape revisions it entered mass production in 1904. The Spitzgeschoß nose was externally pointed like the French design and its shape was patented, but the full metal jacket Spitzgeschoß differed internally. [7] [8] [9] The Gewehr-Prüfungskommission program resulted in the S Patrone or 7.92×57mm Mauser cartridge, which was loaded with a relatively lightweight 9.9 grams (153 gr) spitzer bullet with a slightly increased diameter of 8.2 mm (0.323 in) that had a ballistic coefficient (G1 BC) of approximately 0.321 to 0.337 (ballistic coefficients are somewhat debatable), along with a dimensionally redesigned chambering and bore (designated as "S-bore") and new double-base (based on nitrocellulose and nitroglycerin) smokeless powder loading, which delivered a greatly improved muzzle velocity of 878 m/s (2,880 ft/s) from a 740 millimetres (29.1 in) barrel. The S Patrone was adopted by the German Army and Navy in 1903 and had a maximum terminal range of approximately 3,700 m (4,050 yd). [10] [11] The combination of increased muzzle velocity and improved bullet aerodynamics provided a much flatter bullet trajectory, which increased the probability of hitting an individual target at most typical combat distances.

At the onset of World War I, Germany developed an aerodynamically further refined bullet. This 12.8 grams (198 gr) full metal jacket s.S. (schweres Spitzgeschoß, "heavy spitzer") boat tail projectile had a ballistic coefficient (G1 BC) of 0.557 to 0.593 (ballistic coefficients are somewhat debatable) and was loaded in the s.S. Patrone. At 760 m/s (2,493 ft/s) muzzle velocity the s.S. Patrone had a maximum terminal range of approximately 4,700 m (5,140 yd) and retained supersonic velocity up to and past 1,000 m (1,100 yd) (V1000Mach 1.07) under ICAO Standard Atmosphere conditions at sea level (air density ρ = 1.225 kg/m3). From its 1914 introduction the s.S. Patrone was mainly issued for aerial combat and as of 1918 in the later stages of World War I to infantry machine gunners. Fifteen years after World War I the S Patrone was phased out and the s.S. Patrone became the standard issue ball ammunition for the German military. [12] [13]

United States

Five bullets used in United States military loadings from left to right: M1903 bullet, M1906 ball, M1 ball, M2 ball, and M2 Armor-Piercing (AP) bullet. Black paint has chipped off the tip of AP bullet during rough handling. The cannelure indentation around each bullet is where the leading edge of the case would be crimped into the bullet. The four spitzer bullets used in the .30-06 Springfield cartridge case were loaded with a nearly identical tangent ogive exposed for reliable functioning in self-loading firearms, while the earlier M1903 bullet is positioned to illustrate the longer neck of the preceding .30-03 cartridge. Five301906govtBullets.png
Five bullets used in United States military loadings from left to right: M1903 bullet, M1906 ball, M1 ball, M2 ball, and M2 Armor-Piercing (AP) bullet. Black paint has chipped off the tip of AP bullet during rough handling. The cannelure indentation around each bullet is where the leading edge of the case would be crimped into the bullet. The four spitzer bullets used in the .30-06 Springfield cartridge case were loaded with a nearly identical tangent ogive exposed for reliable functioning in self-loading firearms, while the earlier M1903 bullet is positioned to illustrate the longer neck of the preceding .30-03 cartridge.

In 1906, United States ordnance authorities arranged to purchase the production license for the Spitzgeschoß bullet design from Gleinich. Now referred to as a 'spitzer' design, the new 9.7 grams (150 gr) flat base projectile that had a ballistic coefficient (G1 BC) of approximately 0.405 with a cupro-nickel alloy jacket was incorporated into the M1906 .30-06 Springfield cartridge adopted by U.S. armed forces in 1906. The Ball, M1906 rounds had a muzzle velocity of 823 m/s (2,700 ft/s) and had a maximum terminal range of approximately 3,117 m (3,409 yd) and can be identified by their silver-colored bullets. The cupro-nickel alloy was found to foul the bore quickly.

Russian Empire

In 1908, the Russian Empire adopted a new 7.62×54mmR service round variant loaded with the "L" 9.61-gram (148.3 gr) Лёгкая Пуля (Lyogkhaya pulya, "Light Bullet") spitzer bullet that had a ballistic coefficient (G1 BC) of approximately 0.338. The 7.62×54mmR M1908 Type L cartridge had a muzzle velocity of 865 m/s (2,838 ft/s).

United Kingdom of Great Britain and Ireland

In 1910, the United Kingdom of Great Britain and Ireland officially adopted the .303 British Mark VII cartridge variant loaded with an 11.3 grams (174 gr) flat base spitzer bullet that had a ballistic coefficient (G1 BC) of approximately 0.467. The .303 British Mark VII cartridge had a muzzle velocity of 744 m/s (2,441 ft/s) and a maximum terminal range of approximately 2,743 m (3,000 yd). [14] [15]

Switzerland

Swiss 7.5x55mm GP 11 Full Metal Jacket, Armor Piercing, and Tracer projectiles GP11 coupe.JPG
Swiss 7.5×55mm GP 11 Full Metal Jacket, Armor Piercing, and Tracer projectiles

In 1911, Switzerland adopted the 7.5×55mm GP 11 cartridge loaded with a 11.3 grams (174 gr) spitzer full metal jacket bullet. Besides a pointed nose, the GP 11 bullet also had a boat tail to further lower the drag coefficient (Cd). The GP 11 projectile had a ballistic coefficient (G1 BC) of 0.505 to 0.514 (ballistic coefficients are somewhat debatable) and had a maximum terminal range of approximately 5,500 m (6,015 yd) under Swiss chosen atmospheric conditions (altitude = 800 m (2,625 ft), air pressure = 649 mm (25.55 in) Hg, temperature = 7 °C (45 °F)) equaling ICAO Standard Atmosphere conditions at 653.2 m (2,143 ft) (air density ρ = 1.150 kg/m3). At 780 m/s (2,559 ft/s) muzzle velocity the standard GP 11 ball spitzer bullet retained supersonic velocity up to 800 m (870 yd) (V800Mach 1.1) under ICAO Standard Atmosphere conditions at sea level (air density ρ = 1.225 kg/m3). The GP 11 bullet set off the militaries of countries like Germany, the United States and the United Kingdom at the onset of and after World War I to develop and field similar full metal jacket boat tail spitzer bullets to improve the maximum effective range and long range performance of the full metal jacket flat based spitzer bullet designs they used. The useful maximum effective range is defined by the maximum range of a small-arms projectile while still maintaining the minimum kinetic energy required to put unprotected personnel out of action, which is generally believed to be 15 kilogram-meters (147 J / 108 ft⋅lbf). [2]

Kingdom of Spain

In 1913, the ordnance authorities of the Kingdom of Spain issued a redesigned 7×57mm Mauser cartridge (7mm Cartucho para Mauser Tipo S). [16] It was loaded with a 9 grams (138.9 gr) spitzer bullet fired at a muzzle velocity of 850 m/s (2,789 ft/s) with 3,251 J (2,398 ft⋅lbf) muzzle energy from a 589 mm (23.2 in) long barrel. It had a maximum terminal range of 3,700 m (4,050 yd). [17]

Post-World War I

Sweden

In 1932, Sweden introduced the 8×63mm patron m/32 loaded with 14.2 g (219 gr) spitzer bullets with a boat tail fired at a muzzle velocity of 760 m/s (2,493 ft/s) bullets. The 8×63mm patron m/32 ammunition was not developed as general service ammunition but for anti-aircraft and indirect fire and had an effective range of approximately 3,600 m (3,937 yd) on which the impact energy was 20 kilogram-meters (196 J / 145 ft⋅lbf), and a maximum terminal range of approximately 5,500 m (6,015 yd) when fired from a Kulspruta m/36 machine gun. [18]

Sweden and Norway loaded their 6.5×55mm m/94 service ammunition with a 10.1 grams (156 gr) long round-nosed bullet (B-projectile) fired at a muzzle velocity of 725 m/s (2,379 ft/s) up to the early phase of World War II and Norwegian occupation by German in 1940. From 1941 onwards Sweden, which remained neutral during World War II, adopted m/41 service ammunition loaded with a 9.1 grams (140 gr) spitzer bullet (D-projectile) fired at a muzzle velocity of 800 m/s (2,625 ft/s). [19] Besides a pointed nose the m/41 D-projectile also had a boat tail. [20]

Notes

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References

  1. Petzal, David E. (7 July 2014). "Understanding VLD Bullets". Field & Stream . Retrieved 13 June 2018.
  2. 1 2 Kjellgren, G. L. M. "The Practical Range of Small Arms" (PDF). The American Rifleman. pp. 40–44. Archived (PDF) from the original on 5 March 2015.
  3. Hawks, Chuck. "The 8x50R Lebel (8mm Lebel)".
  4. Hawks, Chuck. "The 8x50R Lebel (8mm Lebel)".
  5. The 8mm (7,92X57) Mauser Cartridge, Ballistics of the F.N. Rifle, Cal. 7,9 m/m Streamlined Pointed Bullet with Tapered Base (197.5 gr.)
  6. FN Mauser Model 98 rifle and carbine operator's manual
  7. Götz, Hans-Dieter (1974). Die Deutschen Militargewehre und Maschinenpistolen: 1871-1945 (in German). p. 133. ISBN   3-87943-350-X.
  8. The patent assigned by the US Patent Office to the Deutsche Waffen- und Munitionsfabriken Aktien-Gesellschaft for an Improved Form for Projectiles for Hand-Firearms can be found under US PAT No. RE12927 .
  9. Patent US 841861 A Projectile for hand-firearms (1907).
  10. "The 8mm (7,92×57) Mauser Cartridge, Ballistics of the F.N. Rifle, Cal. 7,9mm Light Pointed Bullet (154 gr.) S Patrone". Archived from the original on 2016-10-02. Retrieved 2013-02-14.
  11. 8×57mm IS cartridge portrait - Totgesagte leben länger, Wild und Hund 11/2006 (in German) Archived 2011-10-01 at the Wayback Machine
  12. Die Patrone 7.92mm (8x57)
  13. 20th Century German Military Arms and Ammo
  14. "Rifle, Short Magazine Lee Enfield". The Lee-Enfield Rifle Website. Retrieved 13 May 2010.
  15. Cushman, David. "History of the .303 British Calibre Service Ammunition Round".
  16. The Spanish Modelo 1893 Mauser Rifle by Paul Scarlata • Shooting Times • September 23, 2010
  17. FN Mauser Model 98 Rifle and Carbine Operator's Manual page 28 Archived 2012-05-10 at the Wayback Machine
  18. "Swedish Kulspruta m/36". forgottenweapons.com.
  19. Swedish Military Rifles 1894 - 1995
  20. "6.5x55 Ammunition".
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