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[Fight For Future] Su-35S vs F-15X

I claim F-15X has no radio absorbing material and my claim stands unless you can prove F-15X has radio absorbing material.
And what bases you're that is i am talking that your Claim stand just in you wishful thinking/ fantasy world/ fairy tales/wet dreams of yours, what a retard you're @undertakerwwefan :blah::blah::blah:
PS: It's radio absorbing material, not radar absorbing material. It absorbs radio waves. It does not absorb radars. Obviously.
Its has been called radar absorbing material not radio absorbing material you stupid @undertakerwwefan
radar-absorbent material (RAM)[edit]
Iron ball paint absorber[edit]

Lockheed F-117 Nighthawk utilises iron ball paint
One of the most commonly known types of RAM is iron ball paint. It contains tiny spheres coated with carbonyl iron or ferrite. Radar waves induce molecular oscillations from the alternating magnetic field in this paint, which leads to conversion of the radar energy into heat. The heat is then transferred to the aircraft and dissipated. The iron particles in the paint are obtained by decomposition of iron pentacarbonyl and may contain traces of carbon, oxygen, and nitrogen.[citation needed] One technique used in the F-117A Nighthawk and other such stealth aircraft is to use electrically isolated carbonyl iron balls of specific dimensions suspended in a two-part epoxy paint. Each of these microscopic spheres is coated in silicon dioxide as an insulator through a proprietary process. Then, during the fabrication panel process, while the paint is still liquid, a magnetic field is applied with a specific Gauss strength and at a specific distance to create a magnetic field patterns in the carbonyl iron balls within the liquid paint ferrofluid. The paint then cures [hardens] whilst the magnetic field holds the particles in suspension, locking the balls into their magnetic pattern. Some experimentation has been done applying opposing north-south magnetic fields to opposing sides of the painted panels causing the carbonyl iron particles to align (standing up on end so they are three-dimensionally parallel to the magnetic field). The carbonyl iron ball paint is most effective when the balls are evenly dispersed, electrically isolated, and present a gradient of progressively greater density to the incoming radar waves.[citation needed] A related type of RAM consists of neoprene polymer sheets with ferrite grains or conductive carbon blackparticles (containing about 0.30% of crystalline graphite by cured weight) embedded in the polymer matrix. The tiles were used on early versions of the F-117A Nighthawk, although more recent models use painted RAM. The painting of the F-117 is done by industrial robots so the paint can be applied consistently in specific layer thicknesses and densities. The plane is covered in tiles "glued" to the fuselage and the remaining gaps are filled with iron ball "glue."[citation needed] The United States Air Force introduced a radar-absorbent paint made from both ferrofluidic and nonmagnetic substances. By reducing the reflection of electromagnetic waves, this material helps to reduce the visibility of RAM-painted aircraft on radar. The Israeli firm Nanoflight has also made a radar-absorbing paint that uses nanoparticles.[7]The Republic of China (Taiwan)'s military has also successfully developed radar-absorbing paint which is currently used on Taiwanese stealth warships and the Taiwanese-built stealth jet fighter which is currently in development in response to the development of stealth technology by their rival, the mainland People's Republic of China which is known to have displayed both stealth warships and planes to the public.[8][9]

Foam absorber[edit]
Foam absorber is used as lining of anechoic chambers for electromagnetic radiation measurements.[citation needed] This material typically consists of a fireproofed urethane foam loaded with conductive carbon black [carbonyl iron spherical particles, and/or crystalline graphite particles] in mixtures between 0.05% and 0.1% (by weight in finished product), and cut into square pyramids with dimensions set specific to the wavelengths of interest. Further improvements can be made when the conductive particulates are layered in a density gradient, so the tip of the pyramid has the lowest percentage of particles and the base contains the highest density of particles. This presents a "soft" impedance change to incoming radar waves and further reduces reflection (echo). The length from base to tip, and width of the base of the pyramid structure is chosen based on the lowest expected frequency when a wide-band absorber is sought. For low-frequency damping in military applications, this distance is often 24 in, while high-frequency panels are as short as 3-4 in. An example of a high-frequency application would be the police radar (speed-measuring radar K and Ka band), the pyramids would have a dimension around 4 in long and a 2 x 2-in base. That pyramid would set on a 2 x 2-in cubical base that is 1in high (total height of pyramid and base of about 5 in). The four edges of the pyramid are softly sweeping arcs giving the pyramid a slightly "bloated" look. This arc provides some additional scatter and prevents any sharp edge from creating a coherent reflection.[citation needed] Panels of RAM are installed with the tips of the pyramids pointing toward the radar source. These pyramids may also be hidden behind an outer nearly radar-transparent shell where aerodynamics are required.[citation needed] Pyramidal RAM attenuates signal by scattering and absorption. Scattering can occur both coherently, when reflected waves are in-phase but directed away from the receiver, or incoherently where waves may be reflected back to the receiver but are out of phase and thus have lower signal strength. A good example of coherent reflection is in the faceted shape of the F-117A stealth aircraft which presents angles to the radar source such that coherent waves are reflected away from the point of origin (usually the detection source). Incoherent scattering also occurs within the foam structure, with the suspended conductive particles promoting destructive interference. Internal scattering can result in as much as 10 dB of attenuation. Meanwhile, the pyramid shapes are cut at angles that maximize the number of bounces a wave makes within the structure. With each bounce, the wave loses energy to the foam material and thus exits with lower signal strength.[10] Other foam absorbers are available in flat sheets, using an increasing gradient of carbon loadings in different layers. Absorption within the foam material occurs when radar energy is converted to heat in the conductive particle. Therefore, in applications where high radar energies are involved, cooling fans are used to exhaust the heat generated.[citation needed]

Jaumann absorber[edit]
A Jaumann absorber or Jaumann layer is a radar-absorbent substance.[citation needed] When first introduced in 1943, the Jaumann layer consisted of two equally spaced reflective surfaces and a conductive ground plane. One can think of it as a generalized, multilayered Salisbury screen, as the principles are similar. Being a resonant absorber (i.e. it uses wave interfering to cancel the reflected wave), the Jaumann layer is dependent upon the λ/4 spacing between the first reflective surface and the ground plane and between the two reflective surfaces (a total of λ/4 + λ/4 ). Because the wave can resonate at two frequencies, the Jaumann layer produces two absorption maxima across a band of wavelengths (if using the two layers configuration). These absorbers must have all of the layers parallel to each other and the ground plane that they conceal. More elaborate Jaumann absorbers use series of dielectric surfaces that separate conductive sheets. The conductivity of those sheets increases with proximity to the ground plane.

Split-ring resonator absorber[edit]
Main article: Split-ring resonator
Split-ring resonators (SRRs) in various test configurations have been shown to be extremely effective as radar absorbers. SRR technology can be used in conjunction with the technologies above to provide a cumulative absorption effect. SRR technology is particularly effective when used on faceted shapes that have perfectly flat surfaces that present no direct reflections back to the radar source (such as the F-117A). This technology uses photographic process to create a resist layer on a thin (about 0.007 in) copper foil on a dielectric backing (thin circuit board material) etched into tuned resonator arrays, each individual resonator being in a "C" shape (or other shape—such as a square). Each SRR is electrically isolated and all dimensions are carefully specified to optimize absorption at a specific radar wavelength. Not being a closed loop "O", the opening in the "C" presents a gap of specific dimension which acts as a capacitor. At 35 GHz, the diameter of the "C" is near 5 mm. The resonator can be tuned to specific wavelengths and multiple SRRs can be stacked with insulating layers of specific thicknesses between them to provide a wide-band absorption of radar energy. When stacked, the smaller SRRs (high-frequency) in the range face the radar source first (like a stack of donuts that get progressively larger as one moves away from the radar source) stacks of three have been shown to be effective in providing wide-band attenuation. SRR technology acts very much in the same way that antireflective coatings operate at optical wavelengths. SRR technology provides the most effective radar attenuation of any technologies known previously and is one step closer to reaching complete invisibility (total stealth, "cloaking"). Work is also progressing in visual wavelengths, as well as infrared wavelengths (LIDAR-absorbing materials).[citation needed]

Carbon nanotube[edit]
Main article: Carbon nanotube
Radars work in the microwave frequency range, which can be absorbed by multi-wall nanotubes (MWNTs). Applying the MWNTs to the aircraft would cause the radar to be absorbed and therefore seem to have a smaller radar cross-section. One such application could be to paint the nanotubes onto the plane. Recently there has been some work done at the University of Michiganregarding carbon nanotubes usefulness as stealth technology on aircraft. It has been found that in addition to the radar absorbing properties, the nanotubes neither reflect nor scatter visible light, making it essentially invisible at night, much like painting current stealth aircraft black except much more effective. Current limitations in manufacturing, however, mean that current production of nanotube-coated aircraft is not possible. One theory to overcome these current limitations is to cover small particles with the nanotubes and suspend the nanotube-covered particles in a medium such as paint, which can then be applied to a surface, like a stealth aircraft.[11]

Silicon Carbide[edit]
Silicon carbide is the same material used in many sharpening stones or discs. This material in finely powdered form is added to standard heat resistant paint base to absorb RADAR on stealth aircraft. To check RADAR or general electromagnetic wave absorption of materials, they can be tested in an ordinary microwave oven. Water works very well as does silicon carbide, which is why such materials heat well. Most metals reflect radio waves so they are also detected by RADAR, and thus cannot be used or heated in a microwave oven.

@undertakerwwefan :hitwall::hitwall::hitwall:
 
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Its has been called radar absorbing material not radio absorbing material you stupid @undertakerwwefan
radar-absorbent material (RAM)[edit]

It does not absorb radars. Nothing in the world can absorb radars. So there are no radar absorbing materials.

470px-Radar_antenna.jpg


And what bases you're that is i am talking that your Claim stand just in you wishful thinking/ fantasy world/ fairy tales/wet dreams of yours, what a retard you're @undertakerwwefan :blah::blah::blah:

I can claim anything it does not have and I don't have to prove it. I can claim F-15X does not have nuclear power engines and I don't have to prove it. Only if you claim it has something you have to prove it by finding a source on the internet.
 
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I can claim anything it does not have and I don't have to prove it. I can claim F-15X does not have nuclear power engines and I don't have to prove it. Only if you claim it has something you have to prove it by finding a source on the internet.
So you're bashing and ranting without prove @undertakerwwefan what a retard you're @undertakerwwefan :blah::blah::blah:

Radar emits radio. RAM absorbs radio. So it's radio absorbing material, not radar absorbing material. Radar is a physical object that emits radio and receives radio.
But the military term is RADAR ABSORBING MATERIAL not RADIO ABSORBING MATERIALS, it doesn't matters what you call it , military terms stand yours not @undertakerwwefan :hitwall::hitwall:
 
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aand what does radars emitting @undertakerwwefan and your'e one of the most baseless troller here in the PDF @undertakerwwefan

Doesn't matter what radar emits. It does not absorb radar. Something that absorbs heat is not IRST absorbing material or FLIR absorbing material either. Something that absorbs sound is not sonar absorbing material either.
 
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Doesn't matter what radar emits. It does not absorb radar. Something that absorbs heat is not IRST absorbing material or FLIR absorbing materia either.
your answer is @undertakerwwefan
But the military term is RADAR ABSORBING MATERIAL not RADIO ABSORBING MATERIALS, it doesn't matters what you call it , military terms stands yours not @undertakerwwefan :hitwall::hitwall:
 
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:lol::lol::lol: they expert on this field they know better then both of us that why they ain't called RADIO ABSORBING MATERIAL, you have low IQ @undertakerwwefan :hitwall::hitwall::hitwall: They know what and why they are saying RADAR ABSORBING MATERIAL @undertakerwwefan :crazy::crazy::crazy:

Radars are not the only things that emit radio. That's why I call it radio absorbing material.

BTW, any luck finding if F-15X has RAM? F-15SE had it.

The F-15SE concept included conforming internal weapons bays, V-shaped tails, radar baffles over its engine-fan faces, radar absorbent coatings, along with other enhancements used to lower the jet’s radar signature,


https://foxtrotalpha.jalopnik.com/f-15-silent-eagle-may-get-a-reprieve-as-israel-requests-1740179374
 
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Radars are not the only things that emit radio. That's why I call it radio absorbing material.
not only radar but natural/random radio waves is always in the earth atmosphere @undertakerwwefan
BTW, any luck finding F-15X has RAM? F-15SE had it.

The F-15SE concept included conforming internal weapons bays, V-shaped tails, radar baffles over its engine-fan faces, radar absorbent coatings, along with other enhancements used to lower the jet’s radar signature,


https://foxtrotalpha.jalopnik.com/f-15-silent-eagle-may-get-a-reprieve-as-israel-requests-1740179374
Use the commonsense and logic you delusional/brain fart @undertakerwwefan , if the F-15SE have RAM, so why not F-15X will have it why do you consider it will not you brain fart/delusional @undertakerwwefan
 
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