The Chinese authorities are known to actively adopt technological innovations from around the world to develop its economy.
This trend is in the Chinese military industrial complex.
It would be interesting to talk about innovations that could potentially be a demand in the Chinese army.
Anti-tank self-propelled gun, to fight with tanks and other armored vehicles in open terrain. Perhaps demand, especially in northern China, Mongolia, Afghanistan, and other northern border countries, as it allows the tanks to shoot from a distance while remaining inaccessible to the tank guns. Sama gun easier to manufacture and cheaper than tanks, so it can be an effective means of defense against enemy armor.
The gun should have a sight distance shots, 5, 7 kilometers. This range allows the gun to shoot at the tanks remained out of reach for the return fire tanks, or on the boundary of effective fire, at which more powerful self-propelled guns will have the advantage.
For self-propelled guns would be to use the classic traditional gun, with traditional shells. But a large range of fire and the need for increased accuracy leads to thoughts about possible solutions of novation.
Power gun and the projectile velocity can be increased through the use of emerging technologies. Most likely, I think hydrogen gun, or gun powder gases heated by electric current. Probably the same way or use an electromagnetic or hybrid powder - an electromagnetic gun, but in the development of electromagnetic guns so far no significant results, moreover, they are obviously more expensive.
Increase the power gun and the projectile velocity can be due to increase in temperature of powder gases or reduce their molecular weight.
Raise the temperature can be further electrically heated propellant gases Kanel barrel. For this purpose appropriate to use a special powder with reduced molecular weight of the powder gases. For example a mixture of thermoplastic ballistic with oil and ammonium nitrate 70, 80%, such powder combustion provides relatively cold, but light gases, besides it is cheaper. Electric heating, can raise the temperature of gases, and increase their volume and velocity of propagation, up to 3.3 3.7 kilometers per second. This gives the projectile velocity of about 2.5 kilometers per second, for both emerging electromagnetic guns.
As a source of energy can be used unipolar generator. Turbine rotor spins up to high speed, the current from the rotor is removed by electromagnetic coils.
If you want a gun with electric heating, can shoot projectiles at a traditional powder, or shells of composite powder without heating, but at the same speed projectiles will not be high.
In addition to the advantages in power, the guns are electrically low cost shots. Gunpowder dilute ammonium nitrate is several times cheaper.
Hydrogen gun distinguished by a special powder and gunpowder hydrogen combustion provides hot hydrogen, but forms a solid slag, which remains in the barrel after firing.
Hydrogen gun, theoretically increases the velocity of the projectile up to space, but little more than a few kilometers per second makes no sense. Air resistance would pay too high a speed.
Hydrogen gun can not be used on tanks because of the design features, but it is suitable for self-propelled guns.
Guns of increased power and speed of the projectile can pierce tanks from a distance. But for a more effective fire on the large distances it makes sense to equip the missiles boosters and guidance system.
Engines best air direct-flow, and speed for them and a suitable fuel they consume in moderation.
The Americans are developing a shell for the tank gun with straight through the engine to ethylene. But this engine has its drawbacks, the Americans have a complicated and sensitive version of the engine.
Hybrid solid rocket motor - air-flow would be much more convenient. Solid fuel has a higher density and caloric content, the engines themselves are much simpler. Especially if you use external expansion nozzle. In the hybrid engine, the gases generated by solid fuel may leak through the perforated rim on the projectile, which makes the fuel supply system and air-fuel mixture is extremely simple.
Engines, with solid-gas generators and nozzle external expansion may be structurally very simple, and therefore cheaper and more reliable.
The shells have a range of sighting shots to 7, and eventually to 10, 12 miles, it makes sense to make a manageable, due to the fact that its own ballistics gun at such distances is not guaranteed hit.
Control system shells should be simple and robust. Suits with a laser-guided to coordinate field, like aviation, anti-tank missile (ATGM attack), the cannon shells no dead zones, this is another plus in favor of remote control.
Guided missiles virtually guarantee a hit every shot. They are resistant to interference such as curtains or aerosol screens, knocking target missiles.
The benefits of guided missiles before the missiles can add a high speed throughout the trajectory. Projectiles with kinetic striking elements have a greater destructive force than the shaped-charge warhead anti-tank missiles. Furthermore, from the cumulative jets can protect a combined armor, and from a hypersonic verbs effective protection there.
The main task of self-propelled anti-tank guns, to stop the tanks on the approach to the line of defense.
But it can also be used for firing at the tank columns on the march from the ambush. What can contribute to the hilly terrain, such as in Sidzyan Uygur Autonomous Region, Tibet, Afghanistan, and similar mountainous plains.
Anti-tank self-propelled may be on demand as an export commodity for the Arab countries, and perhaps southern Africa.
The weakest point is self-propelled easy booking, they can be very vulnerable to penetration of the tanks in their ranks. Frontal booking self-propelled guns can be strengthened invoice combined armor, but it is expensive. Security of can be strengthened with sandbags or pits, but this limits mobility and requires time to prepare. Most maneuverability of the gun can not be required, the time lost to training of passive protection, can greatly reduce the speed of deployment of defensive lines. And with the tactics of the guns, put a barrier in the way of tanks, it is less tangible.
Self-propelled guns are vulnerable to reduce the range of sight and in the breakthrough. Smokescreens to cover up the offensive tanks can greatly reduce the effectiveness of guns. If the tanks penetrated the ranks of the guns, guns are very vulnerable because of its low maneuverability and armor protection.
Vulnerabilities guns can be compensated for the tactics of battle, the breakout defensive lines, self-propelled guns can quickly retreat to the other line.
Anti-tank self-propelled gun, to fight with tanks and other armored vehicles in open terrain. Perhaps demand, especially in northern China, Mongolia, Afghanistan, and other northern border countries, as it allows the tanks to shoot from a distance while remaining inaccessible to the tank guns. Sama gun easier to manufacture and cheaper than tanks, so it can be an effective means of defense against enemy armor.
The gun should have a sight distance shots, 5, 7 kilometers. This range allows the gun to shoot at the tanks remained out of reach for the return fire tanks, or on the boundary of effective fire, at which more powerful self-propelled guns will have the advantage.
For self-propelled guns would be to use the classic traditional gun, with traditional shells. But a large range of fire and the need for increased accuracy leads to thoughts about possible solutions of novation.
Power gun and the projectile velocity can be increased through the use of emerging technologies. Most likely, I think hydrogen gun, or gun powder gases heated by electric current. Probably the same way or use an electromagnetic or hybrid powder - an electromagnetic gun, but in the development of electromagnetic guns so far no significant results, moreover, they are obviously more expensive.
Increase the power gun and the projectile velocity can be due to increase in temperature of powder gases or reduce their molecular weight.
Raise the temperature can be further electrically heated propellant gases Kanel barrel. For this purpose appropriate to use a special powder with reduced molecular weight of the powder gases. For example a mixture of thermoplastic ballistic with oil and ammonium nitrate 70, 80%, such powder combustion provides relatively cold, but light gases, besides it is cheaper. Electric heating, can raise the temperature of gases, and increase their volume and velocity of propagation, up to 3.3 3.7 kilometers per second. This gives the projectile velocity of about 2.5 kilometers per second, for both emerging electromagnetic guns.
As a source of energy can be used unipolar generator. Turbine rotor spins up to high speed, the current from the rotor is removed by electromagnetic coils.
If you want a gun with electric heating, can shoot projectiles at a traditional powder, or shells of composite powder without heating, but at the same speed projectiles will not be high.
In addition to the advantages in power, the guns are electrically low cost shots. Gunpowder dilute ammonium nitrate is several times cheaper.
Hydrogen gun distinguished by a special powder and gunpowder hydrogen combustion provides hot hydrogen, but forms a solid slag, which remains in the barrel after firing.
Hydrogen gun, theoretically increases the velocity of the projectile up to space, but little more than a few kilometers per second makes no sense. Air resistance would pay too high a speed.
Hydrogen gun can not be used on tanks because of the design features, but it is suitable for self-propelled guns.
Guns of increased power and speed of the projectile can pierce tanks from a distance. But for a more effective fire on the large distances it makes sense to equip the missiles boosters and guidance system.
Engines best air direct-flow, and speed for them and a suitable fuel they consume in moderation.
The Americans are developing a shell for the tank gun with straight through the engine to ethylene. But this engine has its drawbacks, the Americans have a complicated and sensitive version of the engine.
Hybrid solid rocket motor - air-flow would be much more convenient. Solid fuel has a higher density and caloric content, the engines themselves are much simpler. Especially if you use external expansion nozzle. In the hybrid engine, the gases generated by solid fuel may leak through the perforated rim on the projectile, which makes the fuel supply system and air-fuel mixture is extremely simple.
Engines, with solid-gas generators and nozzle external expansion may be structurally very simple, and therefore cheaper and more reliable.
The shells have a range of sighting shots to 7, and eventually to 10, 12 miles, it makes sense to make a manageable, due to the fact that its own ballistics gun at such distances is not guaranteed hit.
Control system shells should be simple and robust. Suits with a laser-guided to coordinate field, like aviation, anti-tank missile (ATGM attack), the cannon shells no dead zones, this is another plus in favor of remote control.
Guided missiles virtually guarantee a hit every shot. They are resistant to interference such as curtains or aerosol screens, knocking target missiles.
The benefits of guided missiles before the missiles can add a high speed throughout the trajectory. Projectiles with kinetic striking elements have a greater destructive force than the shaped-charge warhead anti-tank missiles. Furthermore, from the cumulative jets can protect a combined armor, and from a hypersonic verbs effective protection there.
The main task of self-propelled anti-tank guns, to stop the tanks on the approach to the line of defense.
But it can also be used for firing at the tank columns on the march from the ambush. What can contribute to the hilly terrain, such as in Sidzyan Uygur Autonomous Region, Tibet, Afghanistan, and similar mountainous plains.
Anti-tank self-propelled may be on demand as an export commodity for the Arab countries, and perhaps southern Africa.
The weakest point is self-propelled easy booking, they can be very vulnerable to penetration of the tanks in their ranks. Frontal booking self-propelled guns can be strengthened invoice combined armor, but it is expensive. Security of can be strengthened with sandbags or pits, but this limits mobility and requires time to prepare. Most maneuverability of the gun can not be required, the time lost to training of passive protection, can greatly reduce the speed of deployment of defensive lines. And with the tactics of the guns, put a barrier in the way of tanks, it is less tangible.
Self-propelled guns are vulnerable to reduce the range of sight and in the breakthrough. Smokescreens to cover up the offensive tanks can greatly reduce the effectiveness of guns. If the tanks penetrated the ranks of the guns, guns are very vulnerable because of its low maneuverability and armor protection.
Vulnerabilities guns can be compensated for the tactics of battle, the breakout defensive lines, self-propelled guns can quickly retreat to the other line.
This trend is in the Chinese military industrial complex.
It would be interesting to talk about innovations that could potentially be a demand in the Chinese army.
Anti-tank self-propelled gun, to fight with tanks and other armored vehicles in open terrain. Perhaps demand, especially in northern China, Mongolia, Afghanistan, and other northern border countries, as it allows the tanks to shoot from a distance while remaining inaccessible to the tank guns. Sama gun easier to manufacture and cheaper than tanks, so it can be an effective means of defense against enemy armor.
The gun should have a sight distance shots, 5, 7 kilometers. This range allows the gun to shoot at the tanks remained out of reach for the return fire tanks, or on the boundary of effective fire, at which more powerful self-propelled guns will have the advantage.
For self-propelled guns would be to use the classic traditional gun, with traditional shells. But a large range of fire and the need for increased accuracy leads to thoughts about possible solutions of novation.
Power gun and the projectile velocity can be increased through the use of emerging technologies. Most likely, I think hydrogen gun, or gun powder gases heated by electric current. Probably the same way or use an electromagnetic or hybrid powder - an electromagnetic gun, but in the development of electromagnetic guns so far no significant results, moreover, they are obviously more expensive.
Increase the power gun and the projectile velocity can be due to increase in temperature of powder gases or reduce their molecular weight.
Raise the temperature can be further electrically heated propellant gases Kanel barrel. For this purpose appropriate to use a special powder with reduced molecular weight of the powder gases. For example a mixture of thermoplastic ballistic with oil and ammonium nitrate 70, 80%, such powder combustion provides relatively cold, but light gases, besides it is cheaper. Electric heating, can raise the temperature of gases, and increase their volume and velocity of propagation, up to 3.3 3.7 kilometers per second. This gives the projectile velocity of about 2.5 kilometers per second, for both emerging electromagnetic guns.
As a source of energy can be used unipolar generator. Turbine rotor spins up to high speed, the current from the rotor is removed by electromagnetic coils.
If you want a gun with electric heating, can shoot projectiles at a traditional powder, or shells of composite powder without heating, but at the same speed projectiles will not be high.
In addition to the advantages in power, the guns are electrically low cost shots. Gunpowder dilute ammonium nitrate is several times cheaper.
Hydrogen gun distinguished by a special powder and gunpowder hydrogen combustion provides hot hydrogen, but forms a solid slag, which remains in the barrel after firing.
Hydrogen gun, theoretically increases the velocity of the projectile up to space, but little more than a few kilometers per second makes no sense. Air resistance would pay too high a speed.
Hydrogen gun can not be used on tanks because of the design features, but it is suitable for self-propelled guns.
Guns of increased power and speed of the projectile can pierce tanks from a distance. But for a more effective fire on the large distances it makes sense to equip the missiles boosters and guidance system.
Engines best air direct-flow, and speed for them and a suitable fuel they consume in moderation.
The Americans are developing a shell for the tank gun with straight through the engine to ethylene. But this engine has its drawbacks, the Americans have a complicated and sensitive version of the engine.
Hybrid solid rocket motor - air-flow would be much more convenient. Solid fuel has a higher density and caloric content, the engines themselves are much simpler. Especially if you use external expansion nozzle. In the hybrid engine, the gases generated by solid fuel may leak through the perforated rim on the projectile, which makes the fuel supply system and air-fuel mixture is extremely simple.
Engines, with solid-gas generators and nozzle external expansion may be structurally very simple, and therefore cheaper and more reliable.
The shells have a range of sighting shots to 7, and eventually to 10, 12 miles, it makes sense to make a manageable, due to the fact that its own ballistics gun at such distances is not guaranteed hit.
Control system shells should be simple and robust. Suits with a laser-guided to coordinate field, like aviation, anti-tank missile (ATGM attack), the cannon shells no dead zones, this is another plus in favor of remote control.
Guided missiles virtually guarantee a hit every shot. They are resistant to interference such as curtains or aerosol screens, knocking target missiles.
The benefits of guided missiles before the missiles can add a high speed throughout the trajectory. Projectiles with kinetic striking elements have a greater destructive force than the shaped-charge warhead anti-tank missiles. Furthermore, from the cumulative jets can protect a combined armor, and from a hypersonic verbs effective protection there.
The main task of self-propelled anti-tank guns, to stop the tanks on the approach to the line of defense.
But it can also be used for firing at the tank columns on the march from the ambush. What can contribute to the hilly terrain, such as in Sidzyan Uygur Autonomous Region, Tibet, Afghanistan, and similar mountainous plains.
Anti-tank self-propelled may be on demand as an export commodity for the Arab countries, and perhaps southern Africa.
The weakest point is self-propelled easy booking, they can be very vulnerable to penetration of the tanks in their ranks. Frontal booking self-propelled guns can be strengthened invoice combined armor, but it is expensive. Security of can be strengthened with sandbags or pits, but this limits mobility and requires time to prepare. Most maneuverability of the gun can not be required, the time lost to training of passive protection, can greatly reduce the speed of deployment of defensive lines. And with the tactics of the guns, put a barrier in the way of tanks, it is less tangible.
Self-propelled guns are vulnerable to reduce the range of sight and in the breakthrough. Smokescreens to cover up the offensive tanks can greatly reduce the effectiveness of guns. If the tanks penetrated the ranks of the guns, guns are very vulnerable because of its low maneuverability and armor protection.
Vulnerabilities guns can be compensated for the tactics of battle, the breakout defensive lines, self-propelled guns can quickly retreat to the other line.
Anti-tank self-propelled gun, to fight with tanks and other armored vehicles in open terrain. Perhaps demand, especially in northern China, Mongolia, Afghanistan, and other northern border countries, as it allows the tanks to shoot from a distance while remaining inaccessible to the tank guns. Sama gun easier to manufacture and cheaper than tanks, so it can be an effective means of defense against enemy armor.
The gun should have a sight distance shots, 5, 7 kilometers. This range allows the gun to shoot at the tanks remained out of reach for the return fire tanks, or on the boundary of effective fire, at which more powerful self-propelled guns will have the advantage.
For self-propelled guns would be to use the classic traditional gun, with traditional shells. But a large range of fire and the need for increased accuracy leads to thoughts about possible solutions of novation.
Power gun and the projectile velocity can be increased through the use of emerging technologies. Most likely, I think hydrogen gun, or gun powder gases heated by electric current. Probably the same way or use an electromagnetic or hybrid powder - an electromagnetic gun, but in the development of electromagnetic guns so far no significant results, moreover, they are obviously more expensive.
Increase the power gun and the projectile velocity can be due to increase in temperature of powder gases or reduce their molecular weight.
Raise the temperature can be further electrically heated propellant gases Kanel barrel. For this purpose appropriate to use a special powder with reduced molecular weight of the powder gases. For example a mixture of thermoplastic ballistic with oil and ammonium nitrate 70, 80%, such powder combustion provides relatively cold, but light gases, besides it is cheaper. Electric heating, can raise the temperature of gases, and increase their volume and velocity of propagation, up to 3.3 3.7 kilometers per second. This gives the projectile velocity of about 2.5 kilometers per second, for both emerging electromagnetic guns.
As a source of energy can be used unipolar generator. Turbine rotor spins up to high speed, the current from the rotor is removed by electromagnetic coils.
If you want a gun with electric heating, can shoot projectiles at a traditional powder, or shells of composite powder without heating, but at the same speed projectiles will not be high.
In addition to the advantages in power, the guns are electrically low cost shots. Gunpowder dilute ammonium nitrate is several times cheaper.
Hydrogen gun distinguished by a special powder and gunpowder hydrogen combustion provides hot hydrogen, but forms a solid slag, which remains in the barrel after firing.
Hydrogen gun, theoretically increases the velocity of the projectile up to space, but little more than a few kilometers per second makes no sense. Air resistance would pay too high a speed.
Hydrogen gun can not be used on tanks because of the design features, but it is suitable for self-propelled guns.
Guns of increased power and speed of the projectile can pierce tanks from a distance. But for a more effective fire on the large distances it makes sense to equip the missiles boosters and guidance system.
Engines best air direct-flow, and speed for them and a suitable fuel they consume in moderation.
The Americans are developing a shell for the tank gun with straight through the engine to ethylene. But this engine has its drawbacks, the Americans have a complicated and sensitive version of the engine.
Hybrid solid rocket motor - air-flow would be much more convenient. Solid fuel has a higher density and caloric content, the engines themselves are much simpler. Especially if you use external expansion nozzle. In the hybrid engine, the gases generated by solid fuel may leak through the perforated rim on the projectile, which makes the fuel supply system and air-fuel mixture is extremely simple.
Engines, with solid-gas generators and nozzle external expansion may be structurally very simple, and therefore cheaper and more reliable.
The shells have a range of sighting shots to 7, and eventually to 10, 12 miles, it makes sense to make a manageable, due to the fact that its own ballistics gun at such distances is not guaranteed hit.
Control system shells should be simple and robust. Suits with a laser-guided to coordinate field, like aviation, anti-tank missile (ATGM attack), the cannon shells no dead zones, this is another plus in favor of remote control.
Guided missiles virtually guarantee a hit every shot. They are resistant to interference such as curtains or aerosol screens, knocking target missiles.
The benefits of guided missiles before the missiles can add a high speed throughout the trajectory. Projectiles with kinetic striking elements have a greater destructive force than the shaped-charge warhead anti-tank missiles. Furthermore, from the cumulative jets can protect a combined armor, and from a hypersonic verbs effective protection there.
The main task of self-propelled anti-tank guns, to stop the tanks on the approach to the line of defense.
But it can also be used for firing at the tank columns on the march from the ambush. What can contribute to the hilly terrain, such as in Sidzyan Uygur Autonomous Region, Tibet, Afghanistan, and similar mountainous plains.
Anti-tank self-propelled may be on demand as an export commodity for the Arab countries, and perhaps southern Africa.
The weakest point is self-propelled easy booking, they can be very vulnerable to penetration of the tanks in their ranks. Frontal booking self-propelled guns can be strengthened invoice combined armor, but it is expensive. Security of can be strengthened with sandbags or pits, but this limits mobility and requires time to prepare. Most maneuverability of the gun can not be required, the time lost to training of passive protection, can greatly reduce the speed of deployment of defensive lines. And with the tactics of the guns, put a barrier in the way of tanks, it is less tangible.
Self-propelled guns are vulnerable to reduce the range of sight and in the breakthrough. Smokescreens to cover up the offensive tanks can greatly reduce the effectiveness of guns. If the tanks penetrated the ranks of the guns, guns are very vulnerable because of its low maneuverability and armor protection.
Vulnerabilities guns can be compensated for the tactics of battle, the breakout defensive lines, self-propelled guns can quickly retreat to the other line.
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