电热化学炮电热化学炮为更高的发射装药密度、更稳定的发射药点火和更迅速的发射药燃烧提供了可能,从而,可以给予弹丸更大的能量,提高弹丸的初速和炮口动能。举例来说,根据德国莱茵金属公司的说法,如果将Rh105SB火炮改装为电热化学炮,其发射装药量可进一步提高到10公斤。这可使其发射的尾翼稳定脱壳穿甲弹的初速达到大约1.8公里/秒,炮口动能差不多达到11兆焦,高于Rh120型120毫米火炮所发射的弹丸。但如前所述,较多的发射装药和较高的炮口速度会产生较大的后坐力。实际上,105毫米电热化学炮不仅炮口动能及由此产生的 Electrothermal chemical guns Electrothermal chemical guns provide higher firing charge density, more stable propellant ignition, and more rapid propellant combustion, thereby providing greater energy to the projectile and increasing the velocities and muzzle kinetic energy of the projectile . For example, according to Rheinmetall Germany, if the Rh105SB cannon was converted into a thermo-chemical gun, the launch charge could be further increased to 10 kg. This will allow the launch-stabilized tail-armored Armor Armor to reach an initial velocity of about 1.8 km / sec and a muzzle kinetic energy of almost 11 megajoules above that of a 120-mm Rh120 projectile. However, as mentioned earlier, more launch charges and higher muzzle velocities result in greater recoil. In fact, the 105mm thermoelectric guns not only produce muzzle kinetic energy and the resulting