Method of making a metal injection molded ammunition cartridge

What is claimed is: 1. A method of making a metal injection molded ammunition cartridge comprising the steps of: providing an ammunition cartridge mold comprising a bottom portion having a primer recess extending into the bottom portion adapted to receive a primer, a flash hole positioned in the primer recess through the bottom portion; side walls extending from the bottom portion to a nose end aperture, wherein a propellant chamber is formed between the nose end aperture and the bottom portion; injecting a metal composition into the ammunition cartridge mold to form a metal injection molded ammunition cartridge; and removing the metal injection molded ammunition cartridge from the ammunition cartridge mold. 2. The method of making a metal injection molded ammunition cartridge of claim 1 , further comprising the step of forming a shoulder in the metal injection molded ammunition cartridge. 3. The method of making a metal injection molded ammunition cartridge of claim 2 , further comprising the step of forming a neck between the shoulder and the nose end aperture to form a projectile aperture. 4. The method of making a metal injection molded ammunition cartridge of claim 1 wherein the metal composition comprises: a) 2-16% Ni; 10-20% Cr; 0-5% Mo; 0-0.6% C; 0-6.0% Cu; 0-0.5% Nb+Ta; 0-4.0% Mn; 0-2.0% Si and the balance Fe; b) 2-6% Ni; 13.5-19.5% Cr; 0-0.10% C; 1-7.0% Cu; 0.05-0.65% Nb+Ta; 0-3.0% Mn; 0-3.0% Si and the balance Fe; c) 3-5% Ni; 15.5-17.5% Cr; 0-0.07% C; 3-5.0% Cu; 0.15-0.45% Nb+Ta; 0-1.0% Mn; 0-1.0% Si and the balance Fe; d) 10-14% Ni; 16-18% Cr; 2-3% Mo; 0-0.03% C; 0-2% Mn; 0-1% Si and the balance Fe; e) 12-14% Cr; 0.15-0.4% C; 0-1% Mn; 0-1% Si and the balance Fe; f) 16-18% Cr; 0-0.05% C; 0-1% Mn; 0-1% Si and the balance Fe; g) 3-12% aluminum, 2-8% vanadium, 0. 1-0.75% iron, 0. 1-0.5% oxygen, and the remainder titanium; or h) about 6% aluminum, about 4% vanadium, about 0.25% iron, about 0.2% oxygen, and the remainder titanium. 5. The method of making a metal injection molded ammunition cartridge of claim 1 , wherein the metal injection molded ammunition cartridge is a 5.56 mm, 7.62 mm, 308, 338, 3030, 3006, 50 caliber, 45 caliber, 380 caliber, 38 caliber, 9 mm, 10 mm, 12.7 mm, 14.5 mm, or 14.7 mm ammunition cartridge. 6. The method of making a metal injection molded ammunition cartridge of claim 1 , wherein the metal injection molded ammunition cartridge is 20 mm, 25 mm, 30 mm, 40 mm, 57 mm, 60 mm, 75 mm, 76 mm, 81 mm, 90 mm, 100 mm, 105 mm, 106 mm, 115 mm, 120 mm, 122 mm, 125 mm, 130 mm, 152 mm, 155 mm, 165 mm, 175 mm, 203 mm, 460 mm, 8 inch, or 4.2 inch. 7. The method of making a metal injection molded ammunition cartridge of claim 1 , wherein the metal composition comprises 102, 174, 201, 202, 300, 302, 303, 304, 308, 309, 316, 316L, 316Ti, 321, 405, 408, 409, 410, 415, 416, 416R, 420, 430, 439, 440, 446 or 601-665 grade stainless steel. 8. The method of making a metal injection molded ammunition cartridge of claim 1 , wherein the metal composition comprises 2-16% Ni; 10-20% Cr; 0-5% Mo; 0-0.6% C; 0-6.0% Cu; 0-0.5% Nb+Ta; 0-4.0% Mn; 0-2.0% Si and the balance Fe; 2-6% Ni; 13.5-19.5% Cr; 0-0.10% C; 1-7.0%. Cu; 0.05-0.65% Nb+Ta; 0-3.0% Mn; 0-3.0% Si and balance Fe; 3-5% Ni; 15.5-17.5% Cr; 0-0.07% C; 3-5.0% Cu; 0.15-0.45% Nb+Ta; 0-1.0% Mn; 0-1.0% Si and the balance Fe; 10-14% Ni; 16-18% Cr, 2-3% Mo; 0-0.03% C, 0-2% Mn; 0-1% Si and tine balance Fe; 12-14% Cr; 15-0.4% C; 0-1% Mn; 0-1% Si and the balance Fe; Cr; 0-0.05% C;0-1% Mn; 0-1% Si and the balance Fe; 3-12% aluminum, 2-8% vanadium, 0.1-0.75% iron, 0.1-0.5% oxygen, and the remainder titanium; or 6% aluminum, about 4% vanadium, about 0.25% iron, about 0.2% oxygen, and the remainder titanium. 9. The method of making a metal injection molded ammunition cartridge of claim 1 , wherein the metal composition comprises brass or a brass alloy.