Bullet
United States Patent 3911820
Non-ricochetable bullet having a plastic tip, and a hollow impact frangible casing filled with heavy particles, preferably wet or suspended in a thick liquid dispersible upon frangible impact with the target.
US Patent References:
/1306215.html
Cushing - June 1919 - 1306215
Disintegrating bullet
Foisy - January 1938 - 2105528
Ammunition
Hodgson - April 1943 - 2315853
Antiaircraft shell insert
Friend - December 1944 - 2341212
Shotgun shell having a divided charge adapted to explode in bursts
Devaux - January 1963 - 3074344
/1306215.html
Cushing - June 1919 - 1306215
Disintegrating bullet
Foisy - January 1938 - 2105528
Ammunition
Hodgson - April 1943 - 2315853
Antiaircraft shell insert
Friend - December 1944 - 2341212
Shotgun shell having a divided charge adapted to explode in bursts
Devaux - January 1963 - 3074344
Application Number:
05/405781
Publication Date:
10/14/1975
Filing Date:
10/12/1973
View Patent Images:
Export Citation:
Primary Class:
International Classes:
F42B12/34; F42B12/64; F42B12/74; F42B12/00; F42B12/02; F42B5/02
Field of Search:
102/92,91,92.2,92.3,92.4,92.7,38,42,42C,41,53,67
US Patent References:
Primary Examiner:
Borchelt, Benjamin A.
Assistant Examiner:
Tudor H. J.
Attorney, Agent or Firm:
Larson, Taylor & Hinds
Parent Case Data:
This application is a continuation-in-part of my copending application, Ser. No. 237,271, now abandoned, filed Mar. 23, 1972, and relates to a sectional, non-ricochetable bullet; and, more particularly, to a bullet having an impact frangible casing, preferably filled with a viscous to semi-solid fluid such as gelatinous liquid or paste alone, and which is filled with finely-divided heavy particles dispersible in the target upon impact; and a tip closing said casing and having a hardness variable with the purpose for which the bullet is to be used.
Claims:
What is claimed is
1. A bullet for small arms comprising a hollow missile casing for releasable coupling with a cartridge carrying a propellant charge, said casing enclosing as a filler a liquid ranging in viscosity upward to semi-solid gelatinous and a multiplicity of heavy insoluble particles selected from the group consisting of metals, metal oxides and metal compounds, said casing having an open end, a blunted or rounded tip forming a frangible seal with said open end, said heavy particles being at least as large as dust shot and being present in volume of 65 to 95% of said filler, said casing and tip being of such dimensions, materials and configurations as to constitute an integral bullet sized missile resistant to deformation or destruction during firing and until impact with a target to break said frangible seal and release said casing filler in the target.
2. The bullet as defined in claim 1 wherein the tip is formed of frangible plastic.
3. The bullet as defined in claim 1 wherein the tip is formed of lead.
4. The bullet as defined in claim 1 wherein the tip is formed of fiber-reenforced plastic.
5. The bullet as defined in claim 1 wherein the tip is formed of a plastic selected from the group consisting of teflon, silicone, nylon, polystyrene, polystyrene impact and copolymer of acrylonitrile, butadiene and styrene.
6. The bullet as defined in claim 1 wherein the casing contains fine lead particles.
7. The bullet as defined in claim 1 wherein the casing contains inert heavy chemical particles.
8. The bullet as defined in claim 1 wherein the liquid is selected from the group consisting of polyisobutylene, petroleum jelly, heavy petroleum oil, heavy vegetable oil, silicone liquid and light liquids of the group consisting of oil, water and alcohol gelated to heavy liquid to gelatinous form with a gelating agent.
9. The bullet as defined in claim 1 wherein the liquid to semi-solid gelatinous filler has a minimum viscosity of 100 SSU at 210° F.
10. The bullet as defined in claim 1 wherein the casing is sized for rifled guns from 22 to 45 calibre and for smooth bore guns from 410 to 12 gauge.
11. A bullet for small arms comprising a hollow missile casing for releasable coupling with a cartridge carrying a propellant charge, said casing enclosing a liquid ranging in viscosity upward to a semi-solid gelatinous body, and containing in major quantity a multiplicity of heavy particles selected from the group consisting of metals, metal oxides and metal compounds at least as large as dust shot, said casing having an open end, a blunted or rounded tip, said open end being closed by said blunted or rounded tip and said tip being forming a frangibly seal with said casing, said casing and tip being of such dimensions, materials and configurations as to constitute an integral bullet sized missile resistant to deformation or destruction during firing and until impact with a target to break said frangible seal and release the casing contents in the target.
12. The bullet as defined in claim 11 wherein said heavy particles are lead shot.
13. The bullet as defined in claim 11 wherein said liquid is silicone.
14. A bullet for small arms comprising a thin-walled casing enclosing as a filler a viscous liquid to semi-solid gelatinous body having a minimum viscosity of about 100° at 210°F SSU containing metal particles, said filled casing having an open end, a blunted or rounded tip closing said open end of said casing, and means frangibly sealing said tip to said casing, said metal particles being sized at least as large as dust shot and being present in volume of 65 to 95% of said filler, said casing and tip comprising an integral bullet sized missile resistant to deformation or destruction during firing and until impact with the surface of a target to break said frangible seal and release said casing filler in the target.
15. The bullet as defined in claim 14 wherein the metal particles are lead shot.
16. The bullet as defined in claim 8 wherein the tip is formed of a plastic selected from the group consisting of teflon, silicone, nylon, polystyrene, polystyrene impact and copolymer of acrylonitrile, butadiene and styrene.
17. The bullet as defined in claim 15 wherein the tip is formed of a plastic selected from the group consisting of teflon, silicone, nylon, polystyrene, polystyrene impact and copolymer of acrylonitrile, butadiene and styrene.
18. The bullet as defined in claim 14 wherein the tip is formed of glass fiber-reenforced teflon and the particles are approximately No. 12 lead shot.
19. The bullet as defined in claim 11 wherein said heavy particles are metallic and are sized in the range of dust size up to about 25 mesh U.S. Standard screen, and are present in quantity to substantially fill said hollow casing.
20. The bullet as defined in claim 11 wherein the tip is formed of plastic.
21. The bullet as defined in claim 11 wherein the casing is formed of metal and the tip is formed of plastic.
22. The bullet as defined in claim 11 wherein the casing is formed of metal and the tip is formed of metal.
23. A bullet for small arms comprising a hollow enclosing casing having an open end; a liquid having a minimum viscosity of 100° at 210°F, to a semi-solid gelatinous medium contained as a filler, further containing insoluble heavy particles selected from the group consisting of metals, metal oxides and metal compounds, said heavy particles being at least as large as dust shot and being present in volume of 65 to 95% of said filler; a blunted or rounded tip closing said open end of said casing and means frangibly upon impact with the target surface sealing said tip to said casing, said casing and tip comprising an integral bullet sized missile resistant to deformation or destruction during firing and until impact with the surface of a target to break said frangible seal and release said casing filler in the target.
1. A bullet for small arms comprising a hollow missile casing for releasable coupling with a cartridge carrying a propellant charge, said casing enclosing as a filler a liquid ranging in viscosity upward to semi-solid gelatinous and a multiplicity of heavy insoluble particles selected from the group consisting of metals, metal oxides and metal compounds, said casing having an open end, a blunted or rounded tip forming a frangible seal with said open end, said heavy particles being at least as large as dust shot and being present in volume of 65 to 95% of said filler, said casing and tip being of such dimensions, materials and configurations as to constitute an integral bullet sized missile resistant to deformation or destruction during firing and until impact with a target to break said frangible seal and release said casing filler in the target.
2. The bullet as defined in claim 1 wherein the tip is formed of frangible plastic.
3. The bullet as defined in claim 1 wherein the tip is formed of lead.
4. The bullet as defined in claim 1 wherein the tip is formed of fiber-reenforced plastic.
5. The bullet as defined in claim 1 wherein the tip is formed of a plastic selected from the group consisting of teflon, silicone, nylon, polystyrene, polystyrene impact and copolymer of acrylonitrile, butadiene and styrene.
6. The bullet as defined in claim 1 wherein the casing contains fine lead particles.
7. The bullet as defined in claim 1 wherein the casing contains inert heavy chemical particles.
8. The bullet as defined in claim 1 wherein the liquid is selected from the group consisting of polyisobutylene, petroleum jelly, heavy petroleum oil, heavy vegetable oil, silicone liquid and light liquids of the group consisting of oil, water and alcohol gelated to heavy liquid to gelatinous form with a gelating agent.
9. The bullet as defined in claim 1 wherein the liquid to semi-solid gelatinous filler has a minimum viscosity of 100 SSU at 210° F.
10. The bullet as defined in claim 1 wherein the casing is sized for rifled guns from 22 to 45 calibre and for smooth bore guns from 410 to 12 gauge.
11. A bullet for small arms comprising a hollow missile casing for releasable coupling with a cartridge carrying a propellant charge, said casing enclosing a liquid ranging in viscosity upward to a semi-solid gelatinous body, and containing in major quantity a multiplicity of heavy particles selected from the group consisting of metals, metal oxides and metal compounds at least as large as dust shot, said casing having an open end, a blunted or rounded tip, said open end being closed by said blunted or rounded tip and said tip being forming a frangibly seal with said casing, said casing and tip being of such dimensions, materials and configurations as to constitute an integral bullet sized missile resistant to deformation or destruction during firing and until impact with a target to break said frangible seal and release the casing contents in the target.
12. The bullet as defined in claim 11 wherein said heavy particles are lead shot.
13. The bullet as defined in claim 11 wherein said liquid is silicone.
14. A bullet for small arms comprising a thin-walled casing enclosing as a filler a viscous liquid to semi-solid gelatinous body having a minimum viscosity of about 100° at 210°F SSU containing metal particles, said filled casing having an open end, a blunted or rounded tip closing said open end of said casing, and means frangibly sealing said tip to said casing, said metal particles being sized at least as large as dust shot and being present in volume of 65 to 95% of said filler, said casing and tip comprising an integral bullet sized missile resistant to deformation or destruction during firing and until impact with the surface of a target to break said frangible seal and release said casing filler in the target.
15. The bullet as defined in claim 14 wherein the metal particles are lead shot.
16. The bullet as defined in claim 8 wherein the tip is formed of a plastic selected from the group consisting of teflon, silicone, nylon, polystyrene, polystyrene impact and copolymer of acrylonitrile, butadiene and styrene.
17. The bullet as defined in claim 15 wherein the tip is formed of a plastic selected from the group consisting of teflon, silicone, nylon, polystyrene, polystyrene impact and copolymer of acrylonitrile, butadiene and styrene.
18. The bullet as defined in claim 14 wherein the tip is formed of glass fiber-reenforced teflon and the particles are approximately No. 12 lead shot.
19. The bullet as defined in claim 11 wherein said heavy particles are metallic and are sized in the range of dust size up to about 25 mesh U.S. Standard screen, and are present in quantity to substantially fill said hollow casing.
20. The bullet as defined in claim 11 wherein the tip is formed of plastic.
21. The bullet as defined in claim 11 wherein the casing is formed of metal and the tip is formed of plastic.
22. The bullet as defined in claim 11 wherein the casing is formed of metal and the tip is formed of metal.
23. A bullet for small arms comprising a hollow enclosing casing having an open end; a liquid having a minimum viscosity of 100° at 210°F, to a semi-solid gelatinous medium contained as a filler, further containing insoluble heavy particles selected from the group consisting of metals, metal oxides and metal compounds, said heavy particles being at least as large as dust shot and being present in volume of 65 to 95% of said filler; a blunted or rounded tip closing said open end of said casing and means frangibly upon impact with the target surface sealing said tip to said casing, said casing and tip comprising an integral bullet sized missile resistant to deformation or destruction during firing and until impact with the surface of a target to break said frangible seal and release said casing filler in the target.
Description:
The bullet of the present invention is designed to remain as an integral missile following firing, retaining its structure until broken upon impact with the target surface. The hollow bullet casing is filled with individual heavy particles, usually metal, suspended in and thereby loosely aggregated together by, the liquid, preferably a viscous liquid to semi-solid gel or paste; whereby, upon impact of the bullet with the target, the bullet casing breaks, releasing the heavy particles which enter the target and are scattered therein in a controlled cone. These particles scatter only upon impact with the target, but remain as an integral body until the confining casing is broken by contact with the target surface.
The bullet is preferably frangibly sealed to a blunted or rounded tip to prevent ricochet, and the tip is generally formed of impact destructible plastic. There may be substituted as other tip substances fiber reenforced plastic, or even metal, in order to accommodate variable bullet velocities projected from different size guns with varying muzzle velocities. The tip is fastened to the casing in a manner to remain frangibly secured thereto, confining the contents within the casing until impact, even at high velocities. For this purpose the bullets hereof will be made variable in size for rifles and for 22 to 45 calibre hand guns or rifles, and from 410 to 12 gauge for smooth bore guns.
The invention is further described with reference to the drawings wherein:
FIG. 1 shows an assembled bullet;
FIG. 2 shows the deflection of the casing upon impact and breaking at the joint of the tip; and
FIG. 3 shows the bullet entering the target and diffusion of the metal particles from the point of impact.
Referring to FIG. 1, the bullet comprises a casing 10 which is a tin-walled capsule of copper or possibly of deformable plastic, the plastic being sufficiently high temperature-resistant to maintain its body and shape at about 450°C, as needed for the very short period of time in traversing the bore of the gun, during which it develops relatively high temperatures without breaking in the gun or being destroyed as it leaves the muzzle. There are numerous high temperature plastics of silicone, boron and carbon available on the market today which would be usefully used for cartridge casing material because of their high temperature resistance and substantial strength at high temperatures. The bullet 10 will be mounted to a propellant charge within a cartridge 12 (only a portion being shown), and which is of conventional structure, sized to fit about the lower end of the bullet, and within the bore of the gun, carrying a propellant charge selected to control the desired bullet velocity.
The casing 10 is filled with heavy particles, possibly without, but preferably with, any liquid containing the heavy particles, preferably a highly viscous liquid to semi-solid gelatinous body such as highly viscous lubricating oil or a liquid polymer such as polyisobutylene having a molecular weight between about 2,000 and 15,000, petroleum jelly (petrolatum) and lighter gelated liquids such as oil or water or alcohol gelated with cellulose acetate, methylcellulose and soaps such as sodium stearate or abietate or other commonly known gelating agents, heavy vegetable oils, heavy silicone liquid and the like. The liquid, as pointed out, can be a light liquid but preferably has a minimum viscosity of 100 SSU at 210°F, but any lighter liquid can be used as such. The liquid, however, is usually thickened to desired viscosity. It may have an initial viscosity less than this, and which is then thickened as desired by adding gelating agents thereto to increase the viscosity up to or exceeding the same minimum. The upper limit may be a semi-solid state such as a semi-solid oil or paste.
The liquid is filled with heavy particles such as fine metal particles, typically lead particles ranging from so-called "chilled" lead which may be very fine, but is usually at least as large as dust size. A preferred size is available commercially as No. 12 National Lead, and may range upward in size from "dust" shot, so termed by a commercial distributor Olin, up to large size particles. In practical size this will vary from about 200 up to about 25 U.S. standard sieve; for example, about as large as BB shot. Dust and larger sizes of lead shot are well recognized in the art as set forth in SMOKELESS SHOTGUN POWDERS by Wallace H. Coxe, published by Dupont, with a 1933 copyright, on page 79.
The particles are evenly distributed throughout the viscous liquid or gel, whereby the shot is merely packed solid as to be only homogeneously wet therewith. Thus, while the particles are loose, in that they are held together only by the viscous liquid, the concentration is such that the particles comprise some 65 to 95% by volume of the filler. An identifying characteristic of this particle-filled liquid is that the particles are freely separable from each other upon impact into the target, individual particles scattering as such, and do not penetrate the target as a solid body. Other heavy solid substances imparting a mass to the liquid may be substituted for the metal particles, typically lead oxide or zinc oxide, barium sulfate and other heavy particle substances insoluble in the viscous liquid, and tending to greatly increase the specific gravity of the viscous carrier liquid with which the heavy solids are suspended or merely coated. The heavy, particle-filled liquid 14 is loaded into the cartridge 10, filling the same, the filling being sealed by crimping the upper end 16 of the cartridge, about a protruding flange 18 of the bullet tip 20.
The bullet tip 20 is preferably a frangible plastic which will disintegrate on impact with the target surface into numerous small fragments or particles. For this purpose teflon, polysilicone, nylon, polystyrene, polystyrene impact and polystyrene copolymer with acrylonitrile and butadiene, known commercially as ABS, may be used. Of these several plastic tip substances, virgin teflon is preferred because it maintains its integrity in the gun bore without disintegration at substantial temperatures and pressures, and tends also to lubricate the bore and maintain the bullet without destruction in the bore or as it leaves the muzzle; but, under impact with the target, will be broken into small pieces scattering divergently into the target along with the particles as it enters the surface of the target. The tip 20 secured to the casing 10 by the frangible joint 16 is so constructed to maintain the bullet integral in projection and flight, but the assembly is frangibly separable upon impact with the surface of the target as described, the several particles including fragmentation of the plastic tip scattering conically within the target.
As thus described, a bullet is provided having a hollow casing filled with heavy particles and which is frangibly sealed to a closure tip. This bullet may be fired from a handgun or rifle and will retain its structural integrity as a filled casing closed by a tip until it strikes the target. On the target surface the bullet breaks at the tip as shown in the drawings and expells the heavy particles which enter and scatter through the target. Where, as is possible, but not preferred, the hollow casing of the bullet is filled with dry heavy particles, it will break and the particles will enter and scatter through the target quite widely and these heavy particles will penetrate the target only shallowly, drawn widely spread in the conical lines A of FIG. 3. Where the particles are disposed within a liquid, they will spread in a more or less regular conical pattern within the target. The conical spread of heavy particles within the target will be narrower; that is, the cone will have a lower diameter, where the liquid is most viscous; that is, gelatinous or pasty, such conical spread being within the narrower cone defined by the lines C. The conical spread, however, will be wider, of larger diameter, where the liquid is viscous; that is, substantially less viscous than the gelatinous or pasty form, supplying thereby a wider conical spread with, however, a target penetration of smaller or intermediate depth, as shown between the conical lines B. Thus, there will be a conical spread of heavy particles within the target generally proportional to the viscosity of the liquid, spreading wider with lower viscosity; quite wide with only shallow penetration where no liquid is used, and scattering conically within a small diameter and with deeper penetration where the liquid is quite viscous. Consequently, it will be apparent that the type of penetration of the heavy particles within the target will vary in a regular conical pattern with the character of the liquid, as is preferred, and will scatter widely with very shallow penetration when no liquid is used, according to the diagrammatic lines A, B and C illustrating such spread.
An important advantage of such construction is that the bullet is readily broken upon impact, even at low angles, such as about 8°, and the bullet will not ricochet off of the target, even at such low angle. Since the tip breaks into fragments upon entering the target, it will not pass through and will do no damage by ricoheting or passing through the target onto a secondary target.
Some of the listed plastics including teflon may, however, at very high muzzle velocities and high temperatures and pressures developed within the bore of the gun, tend to break up in flight as it leaves the muzzle, whereby it may be desirable for some bullets to further reenforce the plastic tip for use at such high velocities, whereby it will retain its integrity, shape and configuration, at least until impact with the target. With some reenforcements, such as a strong fiber, such as strong fiberglass, the tip will not be destroyed upon impact with the target, but will enter the target without disintegration. For this purpose a lead tip may also be substituted for the plastic tip, in which event the tip also will not be broken up into particles either upon impact with the target or after substantial penetration of the target, depending upon the construction and material used in the formation of the tip. Such lead tip, as usual, does not need fiber reenforcement. However, whatever tip is used, the thin cartridge crimped there will separate upon impact with the target to allow the heavy liquid and particles to pass into the target and be distributed in a wide scattering such as conically within the target body.
As shown in FIGS. 2 and 3, the bulging of the cartridge 10 is shown exaggeratedly as the tip 20 engages the target surface 22. At the point of impact the edges of the cartridge 10 will separate from the tip, as shown in FIG. 3, and the particles 24 will be distributed widely within the body of the target. As shown in FIG. 3, in particular, the unreinforced plastic 20 also disintegrates into fragments which appear substantially similar to the metallic particles and become widely distributed therewith in the target body.
The following are typical working examples of the invention described herein:
EXAMPLE I
A cartridge for a Python revolver, having a six inch barrel, using a 0.357 Magnum calibre cartridge case containing 5.5 grains of Bulls Eye and a CCI small pistol primer, is loaded with a projectile filled with petrolatum and with tightly packed No. 12 Lawrence brand lead shot, so that the total particle volume is 90% shot and the projectile weight is approximately 85 grains. The projectile casing is a thin copper sheath having a virgin teflon nose cap of solid teflon plastic, as shown in FIG. 1. When the cartridge, loaded as above described, is fired into dry cypress wood surface at an angle of 8°, there is a gouging of the target surface, the projectile disintegrating and scattering particles for a distance of a few feet. However, there is no ricochet, as in the case of any small arms projectile now in use. Even more complete disintegration occurs when this projectile is fired at a water surface at an angle of 8°; and, again, there is no ricochet. When striking a target at angles of 10° to 90°, there is increasing penetration of the target surface, the disintegration of the projectile occuring deeper within the target as the angle of impact increases. The heavy petrolatum liquid will, however, impart to this bullet a narrow conical spread confined within the lines C of FIG. 3, with relatively deep penetration within the target, as shown.
EXAMPLE II
The bullet formed as in Example I is repeated except that a liquid lubricant of medium viscosity lubricating oil such as 120° at 210°F SSU is used. The conical spread of the shot will be roughly approximate to that shown within the lines B of FIG. 3, indicating a substantially wider conical spread and a substantially shallower depth of penetration of the shot within the target.
The use of a much lighter liquid would allow a substantially wider conical spread and even more shallow penetration.
If the liquid were omitted entirely, using the same shot filler, then the shot would scatter even more widely, having relatively even more shallow penetration with wide scattering, substantially as shown by the limits defined by the line A of FIG. 3. The utility of the liquid to supply a significantly deep penetration of the shot into the target is apparent.
As thus described, a bullet comprising separable sections is taught, including a heavy liquid to semi-solid gelatinous filler whose specific gravity is increased or wetted by heavy particles, such as metal particles of heavy chemical particles, which greatly increase the gravity of the mixture, and cause wide scattering of the particles upon impact with the target. The filler is disposed in an easily frangible casing which may be of thin metal or plastic, easily separable on impact from the bullet tip upon striking the target. The tip itself may be of frangible or fiber reenforced plastic which maintains its integrity for medium velocity bullets, the unreenforced being broken up into small particles upon impact; but reenforced by fiber such as fiberglass, the tip will not be destroyed upon impact but will permit deeper penetration with the target. Alternatively, the tip may be formed of metal, such as lead, which will retain its body briefly upon impact, permitting deep disintegration within the target, as desired.
Various modifications will occur to those skilled in the art. It will be understood that the jacket may be 13/4 inches in length or less for shotgun projectiles; or one-half to full jacket for hand guns; or 3/4 to full jacket for rifles. The jacket may be cannelured and shaped, sized and strengthened to conform to various guns with smooth or rifled bores. Accordingly, it is intended that the description given above be regarded as exemplary and not limiting, except as defined in the claims as appended hereto.
The bullet is preferably frangibly sealed to a blunted or rounded tip to prevent ricochet, and the tip is generally formed of impact destructible plastic. There may be substituted as other tip substances fiber reenforced plastic, or even metal, in order to accommodate variable bullet velocities projected from different size guns with varying muzzle velocities. The tip is fastened to the casing in a manner to remain frangibly secured thereto, confining the contents within the casing until impact, even at high velocities. For this purpose the bullets hereof will be made variable in size for rifles and for 22 to 45 calibre hand guns or rifles, and from 410 to 12 gauge for smooth bore guns.
The invention is further described with reference to the drawings wherein:
FIG. 1 shows an assembled bullet;
FIG. 2 shows the deflection of the casing upon impact and breaking at the joint of the tip; and
FIG. 3 shows the bullet entering the target and diffusion of the metal particles from the point of impact.
Referring to FIG. 1, the bullet comprises a casing 10 which is a tin-walled capsule of copper or possibly of deformable plastic, the plastic being sufficiently high temperature-resistant to maintain its body and shape at about 450°C, as needed for the very short period of time in traversing the bore of the gun, during which it develops relatively high temperatures without breaking in the gun or being destroyed as it leaves the muzzle. There are numerous high temperature plastics of silicone, boron and carbon available on the market today which would be usefully used for cartridge casing material because of their high temperature resistance and substantial strength at high temperatures. The bullet 10 will be mounted to a propellant charge within a cartridge 12 (only a portion being shown), and which is of conventional structure, sized to fit about the lower end of the bullet, and within the bore of the gun, carrying a propellant charge selected to control the desired bullet velocity.
The casing 10 is filled with heavy particles, possibly without, but preferably with, any liquid containing the heavy particles, preferably a highly viscous liquid to semi-solid gelatinous body such as highly viscous lubricating oil or a liquid polymer such as polyisobutylene having a molecular weight between about 2,000 and 15,000, petroleum jelly (petrolatum) and lighter gelated liquids such as oil or water or alcohol gelated with cellulose acetate, methylcellulose and soaps such as sodium stearate or abietate or other commonly known gelating agents, heavy vegetable oils, heavy silicone liquid and the like. The liquid, as pointed out, can be a light liquid but preferably has a minimum viscosity of 100 SSU at 210°F, but any lighter liquid can be used as such. The liquid, however, is usually thickened to desired viscosity. It may have an initial viscosity less than this, and which is then thickened as desired by adding gelating agents thereto to increase the viscosity up to or exceeding the same minimum. The upper limit may be a semi-solid state such as a semi-solid oil or paste.
The liquid is filled with heavy particles such as fine metal particles, typically lead particles ranging from so-called "chilled" lead which may be very fine, but is usually at least as large as dust size. A preferred size is available commercially as No. 12 National Lead, and may range upward in size from "dust" shot, so termed by a commercial distributor Olin, up to large size particles. In practical size this will vary from about 200 up to about 25 U.S. standard sieve; for example, about as large as BB shot. Dust and larger sizes of lead shot are well recognized in the art as set forth in SMOKELESS SHOTGUN POWDERS by Wallace H. Coxe, published by Dupont, with a 1933 copyright, on page 79.
The particles are evenly distributed throughout the viscous liquid or gel, whereby the shot is merely packed solid as to be only homogeneously wet therewith. Thus, while the particles are loose, in that they are held together only by the viscous liquid, the concentration is such that the particles comprise some 65 to 95% by volume of the filler. An identifying characteristic of this particle-filled liquid is that the particles are freely separable from each other upon impact into the target, individual particles scattering as such, and do not penetrate the target as a solid body. Other heavy solid substances imparting a mass to the liquid may be substituted for the metal particles, typically lead oxide or zinc oxide, barium sulfate and other heavy particle substances insoluble in the viscous liquid, and tending to greatly increase the specific gravity of the viscous carrier liquid with which the heavy solids are suspended or merely coated. The heavy, particle-filled liquid 14 is loaded into the cartridge 10, filling the same, the filling being sealed by crimping the upper end 16 of the cartridge, about a protruding flange 18 of the bullet tip 20.
The bullet tip 20 is preferably a frangible plastic which will disintegrate on impact with the target surface into numerous small fragments or particles. For this purpose teflon, polysilicone, nylon, polystyrene, polystyrene impact and polystyrene copolymer with acrylonitrile and butadiene, known commercially as ABS, may be used. Of these several plastic tip substances, virgin teflon is preferred because it maintains its integrity in the gun bore without disintegration at substantial temperatures and pressures, and tends also to lubricate the bore and maintain the bullet without destruction in the bore or as it leaves the muzzle; but, under impact with the target, will be broken into small pieces scattering divergently into the target along with the particles as it enters the surface of the target. The tip 20 secured to the casing 10 by the frangible joint 16 is so constructed to maintain the bullet integral in projection and flight, but the assembly is frangibly separable upon impact with the surface of the target as described, the several particles including fragmentation of the plastic tip scattering conically within the target.
As thus described, a bullet is provided having a hollow casing filled with heavy particles and which is frangibly sealed to a closure tip. This bullet may be fired from a handgun or rifle and will retain its structural integrity as a filled casing closed by a tip until it strikes the target. On the target surface the bullet breaks at the tip as shown in the drawings and expells the heavy particles which enter and scatter through the target. Where, as is possible, but not preferred, the hollow casing of the bullet is filled with dry heavy particles, it will break and the particles will enter and scatter through the target quite widely and these heavy particles will penetrate the target only shallowly, drawn widely spread in the conical lines A of FIG. 3. Where the particles are disposed within a liquid, they will spread in a more or less regular conical pattern within the target. The conical spread of heavy particles within the target will be narrower; that is, the cone will have a lower diameter, where the liquid is most viscous; that is, gelatinous or pasty, such conical spread being within the narrower cone defined by the lines C. The conical spread, however, will be wider, of larger diameter, where the liquid is viscous; that is, substantially less viscous than the gelatinous or pasty form, supplying thereby a wider conical spread with, however, a target penetration of smaller or intermediate depth, as shown between the conical lines B. Thus, there will be a conical spread of heavy particles within the target generally proportional to the viscosity of the liquid, spreading wider with lower viscosity; quite wide with only shallow penetration where no liquid is used, and scattering conically within a small diameter and with deeper penetration where the liquid is quite viscous. Consequently, it will be apparent that the type of penetration of the heavy particles within the target will vary in a regular conical pattern with the character of the liquid, as is preferred, and will scatter widely with very shallow penetration when no liquid is used, according to the diagrammatic lines A, B and C illustrating such spread.
An important advantage of such construction is that the bullet is readily broken upon impact, even at low angles, such as about 8°, and the bullet will not ricochet off of the target, even at such low angle. Since the tip breaks into fragments upon entering the target, it will not pass through and will do no damage by ricoheting or passing through the target onto a secondary target.
Some of the listed plastics including teflon may, however, at very high muzzle velocities and high temperatures and pressures developed within the bore of the gun, tend to break up in flight as it leaves the muzzle, whereby it may be desirable for some bullets to further reenforce the plastic tip for use at such high velocities, whereby it will retain its integrity, shape and configuration, at least until impact with the target. With some reenforcements, such as a strong fiber, such as strong fiberglass, the tip will not be destroyed upon impact with the target, but will enter the target without disintegration. For this purpose a lead tip may also be substituted for the plastic tip, in which event the tip also will not be broken up into particles either upon impact with the target or after substantial penetration of the target, depending upon the construction and material used in the formation of the tip. Such lead tip, as usual, does not need fiber reenforcement. However, whatever tip is used, the thin cartridge crimped there will separate upon impact with the target to allow the heavy liquid and particles to pass into the target and be distributed in a wide scattering such as conically within the target body.
As shown in FIGS. 2 and 3, the bulging of the cartridge 10 is shown exaggeratedly as the tip 20 engages the target surface 22. At the point of impact the edges of the cartridge 10 will separate from the tip, as shown in FIG. 3, and the particles 24 will be distributed widely within the body of the target. As shown in FIG. 3, in particular, the unreinforced plastic 20 also disintegrates into fragments which appear substantially similar to the metallic particles and become widely distributed therewith in the target body.
The following are typical working examples of the invention described herein:
EXAMPLE I
A cartridge for a Python revolver, having a six inch barrel, using a 0.357 Magnum calibre cartridge case containing 5.5 grains of Bulls Eye and a CCI small pistol primer, is loaded with a projectile filled with petrolatum and with tightly packed No. 12 Lawrence brand lead shot, so that the total particle volume is 90% shot and the projectile weight is approximately 85 grains. The projectile casing is a thin copper sheath having a virgin teflon nose cap of solid teflon plastic, as shown in FIG. 1. When the cartridge, loaded as above described, is fired into dry cypress wood surface at an angle of 8°, there is a gouging of the target surface, the projectile disintegrating and scattering particles for a distance of a few feet. However, there is no ricochet, as in the case of any small arms projectile now in use. Even more complete disintegration occurs when this projectile is fired at a water surface at an angle of 8°; and, again, there is no ricochet. When striking a target at angles of 10° to 90°, there is increasing penetration of the target surface, the disintegration of the projectile occuring deeper within the target as the angle of impact increases. The heavy petrolatum liquid will, however, impart to this bullet a narrow conical spread confined within the lines C of FIG. 3, with relatively deep penetration within the target, as shown.
EXAMPLE II
The bullet formed as in Example I is repeated except that a liquid lubricant of medium viscosity lubricating oil such as 120° at 210°F SSU is used. The conical spread of the shot will be roughly approximate to that shown within the lines B of FIG. 3, indicating a substantially wider conical spread and a substantially shallower depth of penetration of the shot within the target.
The use of a much lighter liquid would allow a substantially wider conical spread and even more shallow penetration.
If the liquid were omitted entirely, using the same shot filler, then the shot would scatter even more widely, having relatively even more shallow penetration with wide scattering, substantially as shown by the limits defined by the line A of FIG. 3. The utility of the liquid to supply a significantly deep penetration of the shot into the target is apparent.
As thus described, a bullet comprising separable sections is taught, including a heavy liquid to semi-solid gelatinous filler whose specific gravity is increased or wetted by heavy particles, such as metal particles of heavy chemical particles, which greatly increase the gravity of the mixture, and cause wide scattering of the particles upon impact with the target. The filler is disposed in an easily frangible casing which may be of thin metal or plastic, easily separable on impact from the bullet tip upon striking the target. The tip itself may be of frangible or fiber reenforced plastic which maintains its integrity for medium velocity bullets, the unreenforced being broken up into small particles upon impact; but reenforced by fiber such as fiberglass, the tip will not be destroyed upon impact but will permit deeper penetration with the target. Alternatively, the tip may be formed of metal, such as lead, which will retain its body briefly upon impact, permitting deep disintegration within the target, as desired.
Various modifications will occur to those skilled in the art. It will be understood that the jacket may be 13/4 inches in length or less for shotgun projectiles; or one-half to full jacket for hand guns; or 3/4 to full jacket for rifles. The jacket may be cannelured and shaped, sized and strengthened to conform to various guns with smooth or rifled bores. Accordingly, it is intended that the description given above be regarded as exemplary and not limiting, except as defined in the claims as appended hereto.