초록 ▼

To make a composite gun barrel, an inner barrel of a hard refractory material is formed and a composite jacket formed over it to increase the stiffness and strength while not adding excessive weight. The tows in the external jacket are varied in pitch along the barrel to decrease the amplitude of vi

To make a composite gun barrel, an inner barrel of a hard refractory material is formed and a composite jacket formed over it to increase the stiffness and strength while not adding excessive weight. The tows in the external jacket are varied in pitch along the barrel to decrease the amplitude of vibrations of a muzzle during firing. High thermal conductivity material is added to the resin to increase thermal conductivity. In the preferred embodiment, the thermally conductive material is chopped pitch-based carbon fibers and these are randomly oriented. A gas port is added and shielded from the composite material and a metal muzzle piece protects the composite from hot gases.

대표청구항 ▼

1. A composite gun barrel, comprising:a lightweight internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on

1. A composite gun barrel, comprising:a lightweight internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said lightweight internal barrel section; said external barrel section including a resin, fiber tows and thermally conductive filler, whereby said composite gun barrel resists overheating. 2. A composite gun barrel, comprising:a lightweight internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said lightweight internal barrel section; said external barrel section including a resin, fiber tows and thermally conductive filler, whereby said composite gun barrel resists overheating, wherein the conductive filler is comprised of a plurality of randomly oriented discontinuous heat conductive fibers embedded in the resin. 3. A composite gun barrel, comprising:a lightweight internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said lightweight internal barrel section; said external barrel section including a resin, fiber tows and thermally conductive filler, whereby said composite gun barrel resists overheating, wherein the fiber tows form at least one layer of a continuous fiber with a helical pitch that varies along the length of the composite gun barrel in a manner to avoid resonance vibrations and standing waves. 4. A composite gun barrel according to claim 3 wherein the at least one layer of a continuous fiber with a helical pitch comprises at least one layer with an accelerating and decelerating pitch along the length of the barrel.5. A composite gun barrel according to claim 3 wherein said at least one layer of a continuous fiber with a helical pitch includes a plurality of layers of continuous fiber with a helical pitch and said plurality of layers of continuous fiber includes a layer with one of an accelerating or decelerating helix pattern of greater than 5 degrees to less than 89 degrees to an axis of the barrel.6. A composite gun barrel according to claim 3 in which a plurality of said at least one layer of a continuous fiber with a helical pitch are intermixed with consolidating hoops or 90 degrees layers.7. A composite gun barrel, comprising:a lightweight internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said lightweight internal barrel section; said external barrel section including a resin, fiber tows and thermally conductive filler, whereby said composite gun barrel resists overheating, a muzzle piece of metallic material to protect the composite overlay and provide for or protect accessory threads. 8. A composite gun barrel according to claim 7 in which the muzzle piece is a separate tubular member.9. A composite gun barrel according to claim 7 in which the muzzle piece is integrally formed with the barrel.10. A composite gun barrel according to claim 3 in which the composite gun barrel further includes a breech area, said breech area further including enough metallic material to allow for major chamber modifications, commonly known to those skilled in the art as selling back a barrel for rechambering.11. A composite gun barrel in accordance with claim 3 wherein the internal barrel section has a wall thickness of at least 0.095 inch whereby it is self supporting.12. A composite gun barrel in accordance with claim 3 further including a gas port, a gas conduit between the gas port and an operating system; said gas conduit further including refractory means forming a gas wall between the gas port and the operating system, wherein a protective pathway facilitates gas flow to the operating system without eroding the composite overlay.13. A composite gun barrel in accordance with claim 12, wherein the refractory means is steel.14. A composite gun barrel in accordance with claim 12, wherein the refractory means is tungsten carbide.15. A composite gun barrel in accordance with claim 12 wherein the refractory means is ceramic.16. A composite gun barrel in accordance with claim 12 wherein a portion of an underlying metallic barrel material remains an integral part of the finished outside diameter to facilitate gas transfer to the operating system without contacting the composite overlay.17. A composite gun barrel in accordance with claim 1 in which the thermally conductive filler has a conductivity no lower than 75 watts per meter per degree Kelvin.18. A composite gun barrel in accordance with claim 1 in which the thermally conductive filler is chopped pitch based fibers.19. A composite gun barrel in accordance with claim 1 in which the thermally conductive filler and resin are in the ratio of 0.01 to 0.4 pounds of thermally conductive filler to 1 pound of resin.20. A composite gun barrel, comprising:an internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said internal barrel section; said external barrel section including a resin and fiber tows, wherein the tows form at least one layer with a helical pitch that varies along the length of the composite barrel in a manner to reduce the amplitude of vibrations of a muzzle. 21. A composite gun barrel, comprising:an internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said internal barrel section; said external barrel section including a resin and fiber tows, wherein the tows form at least one layer with a helical pitch that varies along the length of the composite barrel in a manner to reduce the amplitude of vibrations of a muzzle, wherein said at least one layer with a helical pitch comprises at least one layer with an accelerating and decelerating pitch along the length of the barrel. 22. A composite gun barrel, comprising:an internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said internal barrel section; said external barrel section including a resin and fiber tows, wherein the tows form at least one layer with a helical pitch that varies along the length of the composite barrel in a manner to reduce the amplitude of vibrations of a muzzle, wherein said at least one layer with a helical pitch includes a plurality of layers of continuous fiber with a helical pitch and said plurality of layers of continuous fiber with a helical pitch includes a layer with one of an accelerating or decelerating helix pattern of greater than 5 degrees to less than 89 degrees to the axis of the barrel. 23. A composite barrel, comprising:an internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said internal barrel section; said external barrel section including a resin and fiber tows, wherein the tows form at least one layer with a helical pitch that varies along the length of the composite barrel in a manner to reduce the amplitude of vibrations of a muzzle, wherein at least one of said helical layers includes intermixed consolidating hoops of 90 degrees. 24. A composite gun barrel, comprising:an internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said internal barrel section; said external barrel section including a resin and fiber tows, wherein the tows form at least one layer with a helical pitch that varies along the length of the composite barrel in a manner to reduce the amplitude of vibrations of a muzzle, wherein the external barrel section includes chopped pitch based carbon conductive fiber embedded in the resin. 25. A composite gun barrel, comprising:an internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said internal barrel section; said external barrel section including a resin and fiber tows, wherein the tows form at least one layer with a helical pitch that varies along the length of the composite barrel in a manner to reduce the amplitude of vibrations of a muzzle, a muzzle piece of metallic material to protect the composite overlay and provide for or protect accessory threads. 26. A composite gun barrel according to claim 25 in which the muzzle piece is a separate tubular member.27. A composite gun barrel according to claim 25 in which the muzzle piece is intrinsically formed with the barrel.28. A composite gun barrel, comprising:an internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said internal barrel section; said external barrel section including a resin and fiber tows, wherein the tows form at least one layer with a helical pitch that varies along the length of the composite barrel in a manner to reduce the amplitude of vibrations of a muzzle, the gun barrel further includes a breech area, said breech area further including enough metallic material to allow for major chamber modifications, commonly known to those skilled in the art as setting back a barrel for rechambering. 29. A composite gun barrel, comprising:an internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said internal barrel section; said external barrel section including a resin and fiber tows, wherein the tows form at least one layer with a helical pitch that varies along the length of the composite barrel in a manner to reduce the amplitude of vibrations of a muzzle, wherein the internal barrel section has a wall thickness of at least 0.095 inch whereby it is self supporting. 30. A composite gun barrel, comprising:an internal barrel section; said internal barrel section having solid tubular internal walls of a strong material defining a bore with a longitudinal bore axis; an external barrel section; said external barrel section comprising a composite overlay on said internal barrel section; said external barrel section including a resin and fiber tows, wherein the tows form at least one layer with a helical pitch that varies along the length of the composite barrel in a manner to reduce the amplitude of vibrations of a muzzle, a gas port, a gas conduit between the gas port and an operating system; said gas conduit further including refractory means forming a gas wall between the gas port and the operating system, wherein a protective pathway facilitates gas flow to the operating system without eroding the composite overlay. 31. A composite gun barrel in accordance with claim 30, wherein the refractory means is steel.32. A composite gun barrel in accordance with claim 30, wherein the refractory means is tungsten carbide.33. A composite gun barrel in accordance with claim 30, wherein the refractory means is ceramic.