The Stuka bomber cannot carry more than one ton of bombs, while the Junker-88 bomber can easily carry more than two tons of ammunition. Now, when attacking ships, they carry two powerful weapons.

There are many prefixes in German bombs, including sb, sc, sd, pc, etc.

Among them, sb is a large-load bomb with a thin wall, and 75% of the inside of the bomb is explosive. Instant fuses are used when attacking ground targets, and different delay fuses are used as needed when hitting targets on the water surface. C is a lightning bomb, an earthquake bomb, with a thinner wall, and only about 50% of the inside of the bomb is explosive. The shock wave and vibration generated by the explosive explosion are used to destroy enemy buildings, and its fragmented killing effect is not emphasized. D is a fragmented bomb, a multi-purpose bomb with a thicker wall, and only 30% of the inside of the bomb is explosive. Use fragments to kill enemy living forces and unarmored targets.

PC is an anti-armored bomb with a thick wall. The material of the bullet body is high-quality steel, and the charge amount is 15 to 20% of the weight of the bullet body. Use high-quality steel fragments to destroy enemy heavy armor protection targets and permanent fortifications such as warships.

As for the rear, it means rocket boosting. The extended tail wing is equipped with a rocket pushing device and is only used during dive bombing.

As for the suffix number, it represents the weight of the bomb. The current bomb, as the name suggests, weighs one ton.

This kind of bomb is specially used to attack thick cement fortifications or to attack battleships!

The one-ton bomb left the cabin and flew towards the Hood, which was so close to him.

The four-unit machine gun was firing frantically, first shooting enemy planes and then shooting the flying bomb. Unfortunately, it was useless.

The bomb fell nearly straight, aiming at the strongest turret!

For battleships, the armor protection is very thick. Take the Hood as an example. The armor on the side must withstand the bombardment of the opponent's shells, which is quite thick. For example, the main armor belt in the middle of the ship is 305 mm, the main armor belt in the upper part is 127 mm, the main armor belt in the lower part is 228 mm, and the other places are about 102 to 152 mm.

It can be seen that the most important sidewalks and armor protection are all severity. After all, it is impossible that all of them are so thick, otherwise the tonnage of the battleship will rise.

Compared with the sideways, the turret is definitely thicker.

The Hood has four double main turrets, a 381mm naval gun, and the turret is the thickest place on the entire warship.

For example, the front of the turret is 381 mm, the sides are 280 to 305 mm, and the rear is 280 mm.

This thickness is quite powerful. It can be said that even a ton of iron blocks weighing from the sky can withstand it.

But now, the PC1000 bomb is not an ordinary iron block weighing a ton!

Just when it was about one hundred meters away from the turret, the bomb suddenly burst out with a hot flame at the tail, and the rocket booster started working!

The rocket is burning, pushing the bomb, constantly accelerating, accelerating!

Originally, the bomb that dived was already at a very high speed, but now, with the booster at the tail, the speed is even faster!

When Jack saw the bomb's fire at the tail, he was delighted at first. It was great. Did he hit it himself?

Just like just now, my own shooting caused the first bomb to deviate from the target, and now, this second bomb will definitely deviate from the target, and maybe I will be blown up by myself!

Exploding in the air is better than exploding on a warship.

But later, Jack discovered that something was wrong. The flame only emerged from the tail, and the bomb began to accelerate!

No, this flame is something that people already have, it is a rocket booster!

Thinking of this, Jack was already cold. He watched the huge bomb, driven by the rocket, with violent momentum, and intimate contact with the top of the second double-equipped turret in front of the bridge.

The speed at this time is more than 280 meters per second!

Speed ​​brings energy of course!

The violent pc-1000 irritably collided violently with the top of the turret, and the hard shell of the bomb was in a head-on battle with the turret.

The result is, of course, the bomb won!

When the impact came, the top of the turret was knocked down, and the entire turret made a crisp and terrifying sound of impact.

Then, the bomb continued to drill forward and successfully tore open the armor on the top of the turret!

In any battleship design, the turret is the thickest, but that is the side, and the top of the turret is relatively thin. For example, the current Hood is not 100 mm thick on the top.

(I also found another statement, saying that the side is as thick as the top. Which one has the most reliable information? However, even if it is 300 mm thick, this one-ton dedicated rocket booster bomb can be torn apart.)

The armor on the deck of the Hood was even only 38 mm.

It can be said that attacking the top is definitely a good plan!

After all, the era when battleships appeared was mainly to prevent the bombardment of the opponent's shells, rather than bombs falling from the sky.

In fact, if statistically analyzed, the turret is not the most susceptible to being shot, but the armor protection of the turret is always the thickest. Why is this?

Of course it is safe. After all, once the turret is hit, it will set off fireworks. There are a large number of shells stored inside the turret. These shells can strike the enemy and become their own terrible nightmare.

For example now!

The Hood is not in combat readiness yet. Like other warships, many artillery shells are not assigned to them, so that they cannot respond quickly when they are subjected to sudden attacks.

However, the main gun of any battleship will definitely not be short of ammunition.

The 381mm armor-piercing shell weighs 800 kilograms. It is quite troublesome to carry such a heavy shell. Therefore, under the turret, there is a complex automatic loading mechanism. At the same time, once the shell is loaded on the warship, unless the warship is retired, the shells of the main gun will not be moved back.

Below the Hood turret is the main gun's ammunition, with the launching medicine wrapped on it and the launching projectiles below.

When the top of the turret was drilled open, the armor-piercing bomb seemed to have used all its strength, and then the delayed fuse exploded.

"Boom!" Hundreds of kilograms of explosives exploded violently.

In fact, when Beschel dived, he aimed at the central bridge of the warship. However, when he left, the route was slightly deviated. Of course, he knew that the other party's turret was the thickest. If it could be blown up, it would be better to blow up a weak bridge.
Chapter completed!