Ammunition having a projectile made by metal injection molding

1 . An ammunition having a metal injection molded projectile and a metal cartridge case comprising: a metal ammunition cartridge comprising a body that enclose a propellant chamber, a primer recess in a bottom portion of the unitary body, a primer flash hole that connects the primer recess and the propellant chamber, and a projectile aperture in communication with the propellant chamber, wherein the metal ammunition cartridge comprises stainless steel, ceramic alloys, copper/cobalt/nickel/custom alloys, tungsten, tungsten carbide, carballoy, ferro-tungsten, titanium, cobalt, nickel, alumina oxide, zirconia and aluminum; a primer inserted into the primer flash hole aperture; a propellant at least partially filling the propellant chamber; and a metal injection molded projectile frictionally fitted in the projectile aperture, wherein the metal injection molded projectile comprises a nose extending essentially symmetrically to a shoulder, and an essentially cylindrical bearing surface extending from the shoulder to a base, wherein the metal injection molded projectile comprises stainless steel, brass, ceramic alloys, copper/cobalt/nickel/alloys, tungsten, tungsten carbide, carballoy, ferro-tunasten, titanium, copper, cobalt, nickel, uranium, depleted uranium, alumina oxide, zirconia and aluminum. 2 .- 3 . (canceled) 4 . The ammunition of claim 1 , wherein the metal injection molded projectile further comprising a cannelure formed on an outer circumferential surface of the essentially cylindrical bearing surface intermediate the shoulder and the base. 5 . The ammunition of claim 1 , wherein the metal injection molded projectile, the metal ammunition cartridge, or both comprise: 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. 6 . The ammunition of claim 1 , wherein the nose has a frustoconical shape. 7 . The ammunition of claim 6 , wherein the frustoconical shape further comprises a cavity. 8 . The ammunition of claim 1 , wherein the nose has a spritzer shape. 9 . The ammunition of claim 1 , wherein the nose has a blunted shape. 10 . The ammunition of claim 1 , wherein the nose has a rounded shape. 11 . The ammunition of claim 1 , wherein the base has a flat shape. 12 . The ammunition of claim 1 , wherein the base has a boattail shape. 13 . The ammunition of claim 1 , wherein the projectile is a full metal jacket, expanding full metal jacket, spritzer, jacketed spritzer, armor piercing, and armor piercing incendiary. 14 . The ammunition of claim 1 , wherein the ammunition 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, 14.7 mm, 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. 15 . The ammunition of claim 1 , wherein the metal injection molded projectile 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. 16 . The ammunition of claim 1 , wherein the metal injection molded projectile 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 the 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 the balance Fe; 12-14% Cr; 0.15-0.4% C; 0-1% Mn; 0-1% Si and the balance Fe; 16-18% 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. 17 . The ammunition of claim 1 , wherein the metal ammunition cartridge 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 the 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 the balance Fe; 12-14% Cr; 0.15-0.4% C; 0-1% Mn; 0-1% Si and the balance Fe; 16-18% 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. 18 . The ammunition of claim 1 , wherein the metal ammunition cartridge comprises brass or a brass alloy. 19 . The ammunition of claim 1 , wherein the body is a unitary body. 20 . The ammunition of claim 1 , wherein the body comprises 2 or more body components. 21 . (canceled) 22 . An ammunition having a metal injection molded projectile and a metal cartridge case comprising: a metal ammunition cartridge comprising a body that enclose a propellant chamber, a primer recess in a bottom portion of the unitary body, a primer flash hole that connects the primer recess and the propellant chamber, and a projectile aperture in communication with the propellant chamber, wherein the metal ammunition cartridge 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 the 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 the balance Fe; 12-14% Cr, 0.15-0.4% C, 0-1% Mn, 0-1% Si and the balance Fe; 16-18% Cr, 0-0.05% C, 0-1% Mn, 0-1% Si and the balance Fe; 3-12% Al, 2-8% V, 0.1-0.75% iron, 0.1-0.5% O, and the remainder Ti; or 6% Al, about 4% V, about 0.25% iron, about 0.2% O, and the remainder Ti; a primer inserted into the primer flash hole aperture; a propellant at least partially filling the propellant chamber; and a metal injection molded projectile frictionally fitted in the projectile aperture, wherein the metal injection molded projectile comprises a nose extending essentially symmetrically to a shoulder, and an essentially cylindrical bearing surface extending from the shoulder to a base, wherein the metal injection molded projectile 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 the balance Fe; 3-5% Ni, 15.5-17.5% Cr, 0-0.07% C, 3-5.0% Cu, 0.15-0.45% N