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The Ultimate Protection Against EMF and High-Energy Radiation
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EMBRACE THE FUTURE OF PROTECTION

Shield yourself from the harmful effects of EMF and radiation with our revolutionary Pulsar textile, both in space and on Earth.

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Discover a new level of safety and well-being with Pulsar, our cutting-edge polymeric textile designed to shield individuals in space and on Earth from the harmful effects of electromagnetic fields (EMF) and high-energy radiation.

 

Pulsar's innovative technology utilizes doped C60 and noble metals in combination with a mild magnetic field to create a perturbation field, offering unmatched protection in even the most extreme environments.

ADVANCED C60 & NOBLE METALS TECHNOLOGY

Pulsar's exceptional protective capabilities are made possible by our advanced use of doped C60 and specific noble metals. This groundbreaking combination forms the foundation of Pulsar's perturbation field, which effectively alters surrounding electromagnetic and radiation fields, providing a shield against potential harm.

REVOLUTIONARY MAGNETIC FIELD PROTECTION 

Our Pulsar textile incorporates a mild magnetic field to further enhance its protective properties. This additional layer of defense serves to strengthen the perturbation field, ensuring maximum protection against negative EMF exposure and high-energy radiation for those in space and on Earth.

UNMATCHED DEFENSE AGAINST EMF & RADIATION

Pulsar's state-of-the-art technology offers unparalleled shielding for individuals, whether they're astronauts venturing into space or Earth-dwellers seeking protection from everyday EMF exposure. Our innovative textile is meticulously designed to provide exceptional safety and peace of mind, no matter where life takes you.

Image by Ryan Schram

Corrosion Resistance 

Tungsten carbide is highly resistant to corrosion and chemical attack, ensuring its long-term performance in various radiation shielding applications.

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Thermal Stability

Radiation shielding materials are often subject to high temperatures, especially in nuclear or space applications. Tungsten carbide exhibits excellent thermal stability, enabling it to withstand harsh environmental conditions without significant degradation.

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Compact Design

Due to its high density, a relatively thin layer of tungsten carbide can provide effective radiation shielding. This compact design is beneficial in situations where space and weight are critical factors, such as in spacecraft or medical devices.

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Gamma Ray Absorption

Gamma radiation is one of the most penetrating forms of ionizing radiation. Tungsten carbide's high density and atomic number make it particularly effective in absorbing gamma rays, reducing their intensity and protecting sensitive equipment and personnel from harmful exposure.

KEY BENEFITS 

Advanced protection against negative EMF exposure and high-energy radiation. 

Innovative use of doped C60 and noble metals to create a perturbation field

Enhanced defense through the incorporation of a mild magnetic field

Ideal for both space travel and Earth-based applications

Promotes safety and well-being in even the most extreme environments

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