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The following is the text of the novel (Chapter 717 of the main text of the Guardian Missile Defense Plan (2)), please enjoy!

I wish you all a happy family during the Dragon Boat Festival in advance

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The German Federation tried in vain to compete with the Chinese Empire in the missile defense system, and soon they discovered how difficult it was to build a national missile defense system, not to mention the technical strength, and the cost of burning money alone would be difficult for the scientists of the German Federation. Pen, fun, and www.biquge.info

In the face of Hitler's insistence, the scientists of the German Union had no choice but to build a simple and practical missile defense system PD33, which was only used to defend Berlin, the capital of the German Union, and the missile defense system covering the entire territory of the German Union and the whole of Europe was undertaken by other NATO member states. In order to frighten the Chinese Empire, the German Union deliberately lied that the PD33 missile defense system could detect and intercept any ballistic missile attack from the Warsaw Pact.

And some scientists believe that in addition to the German Union's own missile defense system. The German army's strategic ballistic missiles should also improve their combat effectiveness, that is, as long as they can break through the Guardian missile defense system of the Chinese Empire, then the ballistic missile defense system that the Chinese Empire has spent a huge amount of money to build will be in vain.

In order to do this, German scientists are actively developing new ballistic missiles. Including ICBMs, intermediate-range ballistic missiles, and short-range tactical ballistic missiles, the German Union has developed dozens of ballistic missile models in just five years. Most of these new ballistic missiles are based on speed, and German scientists have analyzed that as long as the German ballistic missiles are fast enough, they will arrive before the radar warning of the Chinese Empire, making it impossible to respond in time.

Obviously, the ideas of the German Union scientists are positive. It's a pity that the time was in the process of development. All sorts of problems followed, but it was very difficult to get to the bottom of it.

But with the efforts of the scientists of the German Union. The German army's ballistic missile technology has been greatly improved.

Among them, in the family of long-range ballistic missiles, the German R-9 strategic ballistic missile is considered the best. The R9 is a two-stage ICBM with a storable liquid propellant and an inertial guidance system, which is close in performance to the R7 missile of two years ago. The diameter of the two stages of the missile is different, the diameter of the first stage is about 2.9 meters, and the diameter of the second stage is about 2.44 meters. The warhead is cone-shaped. Configured in underground wells.

Due to the terminal velocity of the R9 ballistic missile as high as Mach 4, once it enters the atmosphere from outer space, it is basically difficult for the existing air defense weapons of the Chinese Empire to intercept. The German High Command believed that maintaining a strong offensive ballistic missile force would allow it to maintain a nuclear balance with the Chinese Empire. Originally, Hitler planned to deploy 1,500 R9 ICBMs, but in the end, due to financial constraints, only 200 were deployed in actual combat.

The Chinese Empire and the Warsaw Pact called the German Union's R9 ICBM SS-9, nicknamed the Black Antelope. A great threat against the R9 ballistic missiles. As well as the PD33 missile defense system, which the German Union claims to be able to intercept all intercontinental ballistic missiles coming from the Warsaw Pact, the Chinese imperial side has also greatly improved the performance of ballistic missiles.

As a counterpoint to the German Union R9 ballistic missile, the Chinese imperial side developed the Mistral-11 ballistic missile, numbered **-11, which NATO called the SS-11 Growler.

Mistral-class **-11 ICBMs are meters long. It has a range of 6,750 nautical miles (12,500 km), a standard launch weight of 34,500 kg, a maximum take-off weight of 45 tons, and a throw weight of 1,088 kg. For the first time, the first and second stages of the rocket use a solid hydroxide burner as fuel. The third stage is the thermal emission mode of liquid fuel.

Compared with liquid fuel, solid fuel has strong molecular activity and low chemical stability, so it must be stored at low temperature, and the rocket itself is difficult to do, so the fuel tank is basically not filled with fuel, and then refueled when it is used. So. When a liquid rocket is launched, it is necessary to refuel, which will take quite a long time. If the enemy's missile has already been launched, the time given by the early warning radar is often not very long, and if the refueling time is too long, it will be destroyed on the ground by the enemy's missile before it has time to launch.

At the same time, the rocket fuel used by various countries in the fifties and sixties was generally liquid hydrogen, which was not suitable for long-term storage due to the terrible corrosive force of hydrogen molecules on various containers. Therefore, the storage of missile fuel is a huge problem and consumes a huge amount of money. Even the well-funded Chinese Empire was troubled by this long period of war readiness.

It is precisely because of these unfavorable reasons that the scientists of the Chinese Empire were the first to successfully develop solid fuel for rockets. Solid rocket fuel used on the **11 ICBM provides short-term acceleration to the missile, and engineers use conical charge or slow-release technology to slow down the combustion rate of the solid rocket. At the same time, solid rocket fuel is chemically stable at room temperature, and the storage requirements are not very harsh, which greatly reduces the daily maintenance cost.

For **11, in order to be able to successfully break through the so-called missile defense system of the German Union, its guidance system adopts the modified PDM-20 inertial balance guidance control system, and under the help of the three-stage rocket, it can enter space in less than six minutes, and fly in space at a speed of Mach 4, after re-entering the atmosphere, the end of the engine ignition is as fast as Mach 15, which is basically impossible to intercept with the existing air defense weapons of the German Union.

However, the missile experts of the Chinese Empire have used multi-warhead guidance technology for the first time on the Zai**-11 ICBM. That is, the warhead is equipped with a re-entry vehicle manufactured by Beiyang Electric, which is equipped with three W-89 nuclear warheads with a yield of 170,000 tons, as well as eight metal pieces and decoy dummy warheads, which are used to confuse the enemy's interceptor missiles and greatly improve their attack capability and penetration capability.

In terms of the deviation value of the circumferential calculation, the Chinese Empire has always been in the leading state. **The circumferential deviation of the Type 11 ballistic missile was reduced to 320 meters, and the subsequent improved version once reached an ultra-high accuracy of 116 meters, which caused a huge nuclear threat to the German Union and the pressure was unprecedented.

Similarly, the allies of the Chinese empire need a certain nuclear umbrella. This is especially true of the Warsaw Pact member states near Europe, such as the United Kingdom, Turkey, Armenia, Iceland and other countries. The Chinese Empire had large land, sea, and air military bases in each of these countries, and a large number of nuclear missile silos were deployed in the bases.

But these bases are close to the German Union and NATO countries. Considering the cost and actual combat effect, the Chinese imperial side will not deploy the long-range ICBM **-11 there. In their place are the **-15 avant-garde short-range tactical ballistic missile and the **-19 medium-range tactical ballistic missile. These two ballistic missiles are the basic models, and there are many models derived from them one after another, including low-altitude, medium-altitude, high-altitude and other uses.

Among them, the **-15 avant-garde tactical ballistic missile is a key component of the Chinese Imperial Guardian missile defense system, that is, an improved version of the Guardian 2 missile.

As one of the core components of the Defender missile defense system, the Defender-2 missile is one of the important weapons used by the Chinese imperial side to intercept the German Union ICBM.

Defender 2 anti-ballistic missile missile length (including booster meters, wingspan 1.57 meters. The speed is 9600 kilometers per hour, the launch height is 165 kilometers, the maximum range is 900 kilometers, the propulsion device adopts the MK32 (Ziyao Xingjun) dual-thrust solid rocket developed by Royal Science and Technology Heavy Industries, a total of three stages of engines, and the warhead adopts a collision kinetic warhead, which can also carry a small nuclear warhead.

The Defender-2 anti-ballistic missile is a key component of land-based anti-missile systems. It is mainly deployed in the major military bases in the western and northern parts of the Chinese Empire, which border the German Union and other NATO countries.

But soon, in order to avoid the interception of the ground-based anti-missile system of the Chinese Empire, the German Navy began construction of the Saxony-class missile cruiser, which was launched in 1957.

As the first-class missile cruiser of the German Navy, it was stimulated by the Tornado-class missile cruisers of the Chinese Empire. During the Battle of the Atlantic at the end of World War II, the Tornado-class missile cruiser of the Imperial Chinese Navy sank a super battleship of the German High Seas Fleet, which had a huge impact on the German Navy.

For quite a long time after the war. The German Navy has been hesitant to continue with the development of a traditional fleet of battleships and aircraft carriers, or to create missile cruisers and aircraft carrier battle groups. Eventually, however, the company's financial constraints forced the German Navy to temporarily abandon the aircraft carrier battle group program in favor of an asymmetrical naval force, eventually dominated by nuclear submarines and missile cruisers.

In the early post-war period, the design and construction of missile cruisers for the German Navy did not go well. It wasn't until the German Union's intelligence bureau stole some of the data from the construction of the Imperial Chinese Tornado-class missile cruisers. The German Navy only groped for its own copying, and finally completed the construction of the Saxony-class missile cruiser in the late fifties.

Although the Saxony-class missile cruisers of the German Union Navy were built in imitation of the Tornado-class missile cruisers of the Imperial Chinese Navy during World War II. It lagged behind the missile cruisers of the same type in the Chinese Empire by more than fifteen years, but it was a great improvement for the German Navy.

In order to break through the interception of the missile defense system of the Chinese Empire, the German Navy took on an important task. That is, according to Hitler's orders, the Saxony-class missile cruisers of the German Navy need to have a strategic weapons platform with global delivery, all-weather combat duty, and capable of carrying ballistic missiles.

In the spirit of this instruction, the Saxony-class missile cruisers of the German Union Navy were nuclear-powered and equipped with the new R-11 intercontinental ballistic missile (Warsaw Pact code SS-11), which enabled the cruisers of this class to enter the Pacific region for cruise, and through the sea-based ballistic missile launch system, they could avoid the detection of the land-based ballistic missile defense systems deployed by the Chinese Empire in Western Europe, the Middle East, and North America, and could attack the capital of the Chinese Empire in as little as 15 minutes, so that the Chinese Empire could not respond in time.

The lead ship of the Saxony-class nuclear-powered missile cruiser entered the Pacific Ocean in the summer of 1958, and was once close to the White Beach military base of the Chinese Empire in the Ryukyu Islands, which made the Chinese Empire extremely nervous, and sent a large number of warplanes, warships and submarines to surround and track it.

The Saxony's entry into the western Pacific region made the Chinese Empire aware of the huge loopholes in the Guardian missile defense system, so the General Staff of the Chinese Empire immediately made up for the relevant plans, and the Navy took the opportunity to put forward a request to build the Sea Guardian missile defense system, and obtained the approval of the Chinese Emperor Wang Chenhao.

In the 59th year of Guanghua, the military budget of the Chinese Empire passed a bill to allocate 15 billion dragon coins to build a sea-based Guardian missile defense system. As a supplement to the land-based Guardian defense system, the proposal upgrades the Typhoon-class heavy cruiser, Tornado-class missile cruiser, Ming-class strategic nuclear submarine and other platforms of the Imperial Chinese Navy, and installs the sea-based Guardian ballistic missile defense radar reconnaissance system and the Guardian-3 anti-ballistic missile weapon platform. (To be continued.) If you like this work, you are welcome to come to the starting point m) to vote for recommendation, monthly pass, your support is my biggest motivation. )