Lead-free shot formed by liquid phase bonding
First Claim
1. A method for the manufacture of a projectile for discharge from a weapon, comprising the steps of:
- blending a mixture of a first particulate, a second particulate and a third particulate where said first particulate has a first room temperature density, said second particulate has a second room temperature density that is lower than the first room temperature density and a melting temperature above 400°
C. and said third particulate is a metal that has a melting temperature below the melting temperature of said second particulate wherein said third particulate is added in an amount from that effective to bind said first and second particulate to about 10%, by weight, of said mixture;
compacting said mixture into a mold of a desired shape;
heating said mixture to a temperature greater than the melting temperature of said third particulate, but below the melting temperature of said second particulate, for a time effective to density and consolidate said mixture into a preform; and
mechanically forming said preform into said projectile.
1 Assignment
0 Petitions
Accused Products
Abstract
There is provided a lead-free projectile, such as a bullet or a ballistic shot, formed by liquid phase sintering or liquid phase bonding of a first particulate having a density greater than lead, a second, ductile, particulate having a melting temperature in excess of 400° C. and a binder having a fluidity temperature that is less than the melting temperature of the second particulate. Unlike solid phase sintering that tends to produce articles having a porosity of about 20%, by volume, liquid phase sintering and liquid phase bonding achieve close to 0% porosity. Reducing the porosity level decreases the amount of high density, first particulate, required to achieve a density close to that of lead. Since the high density particulate tends to be the most expensive component of the projectile, this significantly reduces the cost of the projectile. The reduced porosity also allows for an increase in the amount of the second, ductile, component. Increased ductility generates a projectile with a reduced likelihood of fragmentation on being fired from a weapon and with better deformation on impact with a target. One suitable composition for the projectile is ferrotungten-iron-zinc.
76 Citations
12 Claims
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1. A method for the manufacture of a projectile for discharge from a weapon, comprising the steps of:
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blending a mixture of a first particulate, a second particulate and a third particulate where said first particulate has a first room temperature density, said second particulate has a second room temperature density that is lower than the first room temperature density and a melting temperature above 400°
C. and said third particulate is a metal that has a melting temperature below the melting temperature of said second particulate wherein said third particulate is added in an amount from that effective to bind said first and second particulate to about 10%, by weight, of said mixture;compacting said mixture into a mold of a desired shape; heating said mixture to a temperature greater than the melting temperature of said third particulate, but below the melting temperature of said second particulate, for a time effective to density and consolidate said mixture into a preform; and mechanically forming said preform into said projectile. - View Dependent Claims (2, 3, 4, 5, 11, 12)
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6. A method for the manufacture of a projectile for discharge from a weapon, comprising the steps of:
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blending a mixture of a first particulate, a second particulate and a third particulate where said first particulate has a first room temperature density, said second particulate has a second room temperature density that is less than the first room temperature density and a melting temperature above 400°
C. and said third particulate has a melting temperature below the melting temperature of said second particulate wherein said third particulate is a metal and added in an amount from that effective to bind said first and second particulate to about 10%, by weight, of said mixture;delivering said mixture to a first chamber having a first through passageway of a first cross sectional area, said chamber having an open front end; continuously extruding said mixture through said open front end to a second chamber having a second through passageway of a second cross sectional area that is less than said first cross-sectional area; heating said mixture to a temperature greater than the melting temperature of said third particulate, but below the melting temperature of said second particulate, for a time effective to density and consolidate said mixture into a rod; and mechanically forming said rod into said projectile. - View Dependent Claims (7, 8, 9, 10)
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Specification