About anti-motorized infantry weapons:

Developed to contain and target motorized infantry, to be exact, the whole world is working on it.

For example, the most common anti-motorized infantry is missile weapons, whether it is the second or third generation of motorized infantry, they are all made of E carbon and titanium APH related materials of armor or components, so its missile attack warhead is specially specialized as anti-E carbon shrapnel, only E carbon has greater damage, but has little effect on ordinary armor.

The special anti-E carbon shrapnel itself is also made of E carbon material, but its physical and chemical properties are very different from the original.

The accuracy of anti-motorized infantry missiles in actual combat is actually very low, due to the influence of electromagnetic interference field generating devices, and because of the use of special structural design and the high density of materials aimed at E carbon, the quality of the initially developed anti-motorized infantry missiles is beyond the reasonable range.

At present, there are three types of anti-motorized infantry missiles, namely, anti-motorized infantry missiles powered by conventional high-calorific fuel, FT missiles powered by disposable particle compression thrusters, and kinetic energy missiles launched by magnetic orbital propulsion.

Therefore, the first generation of anti-motorized infantry missiles is too large in size, resulting in poor mobility of the launcher, even if the use of heavy trucks as support, but the number is too small, and it is easy to be bombed with a fixed launcher, so the practicability of the original anti-motorized infantry missile is very poor.

Not only did the above shortcomings be exposed, but the missile's range was insufficient, and in order to compensate for the range, the overall volume needed to be expanded, and in the worst case, the internal equipment had to be redesigned.

In the subsequent development and improvement, there have been many designs, such as adding a cluster blasting method and setting up an advance fuse in order to improve the hit rate.

However, although the follow-up research and development has made progress in power, range, and anti-jamming, the essence has rarely changed, and how to take into account the miniaturization of the projectile body while ensuring the power and range has not been solved.

This problem was not solved until 2147, when the base called "Blue Flash", which was part of the Tim Industries and deployed in the Siberian taiga on the territory of the Nordic Military Alliance, gave birth to a weapon that fundamentally changed its flaws - the FT missile.

The original FT missile model was named "Scythe I", which simply used a disposable FT particle compression thruster to provide power, so that the miniaturization of the anti-motorized infantry missile became possible, but the initial first generation exposed the shortcomings of insufficient power and range, although the initial velocity was fast enough, the accuracy and anti-jamming ability at a short range were good, but it was eliminated in the actual combat test.

It wasn't until the latest "Scythe V." was developed in 2148 that it completely changed most of the previous shortcomings, perhaps the only drawback was that it was relatively expensive, could not be mass-produced, and the production efficiency was low, and it took the workers and researchers at the Blue Flash Base the first three months to complete 6 FT missiles.

The anti-motorized infantry missile with a disposable particle compression thruster has evolved due to the emergence of the fourth-generation motorized infantry, which is actually to add an FT detector, which will identify the source of the FT particle compression device, so as to play a tracking role, not only for the fourth-generation motorized infantry, but also for all driving equipment that uses the FT particle compression device, so the same anti-FT missile can also intercept its previous version of the FT missile.

The third type of anti-motorized infantry missile powered by the magnetic orbital acceleration device is more special, because it is more suitable for the motorized infantry itself to equip for medium and close confrontation, and the ship has a great deterrent effect against the motorized infantry that has broken into the defense gap.

Its initial velocity is very high, and the armor-piercing effect for E carbon armor is very good, but its magnetic orbital acceleration device requires a large loss of electrical energy, and under normal circumstances, a third-generation motorized infantry cannot be used more than twice in a row, and this is a relatively cumbersome external special equipment, which cannot be transformed with motorized infantry with deformation and switching capabilities.

It is said that this type of weapon is special not only because of the above reasons, but also because this type of weapon far surpasses the above two categories in terms of achievements, taking the "Heavy Hammer Cli" anti-motorized infantry kinetic energy missile developed by Phipoulos in 2147 as an example, this weapon was equipped with this weapon in the 2148 TPP vs. TMS civil war, and the Phipoulos "Heavy Hammer" frequency sea combat ship was equipped with this weapon. Hammer Cli".

About the replenishment and finishing of the third generation of motorized infantry:

Super Kraken: The culmination of the comprehensive performance of the third-generation motorized infantry, the technology of the third-generation motorized infantry is completely applied.

Assault: A third-generation motorized infantry with a specialized assault type.

Assault F: The third generation of motorized infantry with specialized heavy fire support cover.

Albert Wolf: The fourth-generation motorized infantry test machine, corresponding to the special motorized infantry operation, is the final weapon of the Philippos military to deal with the fourth-generation motorized infantry.

About Particle Compression Thrusters:

Original mechanism: It is divided into three stages, the first stage is to use the FT particles produced by the new generation of nuclear reactors (2112-present) to slowly decay into GFT and other heavy particles in the gravitational environment, and at the same time will release visible photons, this process will produce thrust and very small heat, thereby driving the thruster operation forward,

The second stage is to slowly decay the FT particles and other heavy particles (GFT particles account for 99.98%) in the internal device to exclude, through the "cooling system", that is, the use of "heat transfer armor" heat dissipation, that is, the storage and discharge device made of E carbon material, the heavy particles reach the concentration warning value and then discharge, and the time to reach the warning concentration often only takes a few seconds, this process will also produce thrust, but will lose the electrical energy to start the system, under normal circumstances, the system is always started.

The third stage is to filter the heavy particles released to the outside world that have a greater killing effect on the environment and organisms, and the installation of the filter device is only to reduce the concentration of the high-concentration heavy particles that are discharged, so that the decay can end within a few minutes.

Other special is that due to the rapid decay of FT particles in the low gravity environment, the thrust generated will increase dramatically compared with the high gravity environment, and the GFT particles produced at the same time are impure, and the concentration is low (only 15-33%, 2148 low earth orbit test data), the release of photons is greatly increased, so that the color changes to white, which also leads to the generation of more heat, and the concentration of heavy particles is low but the variety increases and the killing of radiation to organisms is strengthened, once the "cooling" and "discharge" system is overloaded, Then the particle compression thruster will also get out of control and eventually go to extinction

In order to avoid this situation as much as possible, the researchers installed control systems and limiting devices for the motorized infantry loaded with particle compression thrusters in space operations, limiting the rate at which the nuclear reactor produces FT particles, and using the excessive heat generated for the operation of chemical batteries and weapons. At best, it will only damage the propulsion port, which will only need to be replaced and repaired.

This is why there are very few propelled flying objects in the world that are loaded with particle compression thrusters into space, and even Fiplos' third-generation shuttle (March 2149, Virrat Island Shuttle Launch Center) shuts down particle compression thrusters after entering high orbit.

In terms of heavy-duty particle compression thrusters, only the world's Phipolos shuttle has been researched and applied, and there is also the super battleship Timm Industries, which is loaded, and there are four heavy-duty particle compression thrusters, in terms of heat dissipation devices, safety and security systems and components, two separate large nuclear reactor FT particle supply sources, FT particle storage, and FT particle filtration system devices, which account for most of the mass of the entire ship.

Due to technical and design defects, the first generation of particle compression thrusters will be dark brown in color after the FT particles decay photons, which will turn red when the concentration is high, and a large amount of particle dust with a decay period of about five minutes will remain on the flight trajectory, which will also lead to easy to be captured and attacked, and will also expose the motorized infantry in the optical stealth state.

The first generation of particle compression thrusters was developed in 2147, and the most important thing is the problem of heat dissipation, because after the FT particles slowly decay into GFT particles, because the characteristics of GFT particles will heat up rapidly, it will lead to the thruster burn out, if the "cooling" system can not quickly remove the GFT and other heavy particles such as FT decay, then the serious consequence is that the entire particle compression thruster is damaged and cannot be repaired, can only be replaced, and even an explosion will cause the body and the driver to be lost. Under normal circumstances, it can only operate continuously for less than two hours, and no more than half an hour when operating at high power, after which it is necessary to return to home for maintenance and replacement of cooling parts or wait for the "cooling" to end.

The second generation of particle compression thruster was developed in 2150, compared with the first generation in the heat dissipation problem has been improved, in the original maximum of only two hours of continuous operation time increased by 3-4 times, and the filter device also reduces the concentration of heavy particles to a greater extent, while basically realizing the transmission rate of FT particles, so that the concentration can be better controlled to grasp the propulsion force more accurately, compared with the previous adjustment of the output needs to temporarily cut off the FT supply source of the nuclear reactor, which is not only simple operation, And it was in effect for a short period of time.

About SLMIF drugs (Seed-Life-Maneuver-Induction-Factor):

That is, SLM regulation induction reagents, divided into two types, the first IF1, was originally used to treat SLM carriers due to the concentration can not be mediated caused by long-term disorders of biochemical mechanism reactions, the previous hero - Kecheng, he was also rescued because of IF1, the first to develop the reagent was Timm Industry in 2149, followed by the West Gorid Company.

The other is IF2, in fact, it can be said that a large number of by-products left over from the development of IF1 are formed by interaction, which was not noticed by Timm Industries at first, which is why Sigorid was the first to master this technology.

IF2 drugs can inhibit the brain activity of SLM carriers to a certain extent, and will also bring hallucinations and affect judgment on their brains, and even appear similar to "hypnosis" and be controlled after the concentration increases, which is the time when IF2 shows its ability in the NHSA chapter.

Of course, IF2 also has defects, such as it will be rejected by the special immune system of SLM carriers, and the effect of the drug is long-term, and it needs long-term injection to adapt to the human body

The only antidote to IF2 is to inject IF1, and the sooner the better, once IF2 and the human body are adaptable, then when IF1 is used for treatment, it is necessary to inject a high concentration of reagents, but only for adjuvant therapy.

IF2 has adaptability to the human body, then IF1 only has a short-term relief and emergency effect, and in this case, if IF2 is not injected on time, then the human body will be as eager to obtain IF2 as a drug addict, and the human body will be forced to ask for it at all costs, resulting in the deepening of the special mental illness often experienced by SLM carriers, and even driving madness to suicide.