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Thermal Phone Cases

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Thermal Phone Cases

Whether you’re worried about the temperature of your cell phone, or want to protect it from the sun, thermal phone cases can help you stay comfortable and cool. They contain technology that mimics what astronauts wear in spacesuits. They even include an antimicrobial agent. They also protect your cell phone from being overheated in a hot sauna, and they fit all brands.

Chromium Thermal Barrier reflects 90% of the sun’s rays

Developed using NASA spacesuit technology, the PHOOZY Thermal Capsule protects your expensive cell phone from the heat and cold without compromising functionality. This revolutionary thermal protection system uses materials that reflect 90 percent of the sun’s rays. Unlike most phone covers, the PHOOZY Thermal Cap combines advanced cooling technology with a slim, ultralight design.

The Phoozy Thermal Capsules’ outer layer is made from a material called “Chromium Thermal Barrier”, which reflects 90 percent of the sun’s rays and offers extra protection. It has a velcro closure and is designed to keep the phone from overheating. Additionally, it extends the optimal operating temperature of the phone. For this reason, it is not recommended to leave the phone in hot and sunny conditions.

Shockproof Impactor Core 1.5 provides increased drop protection

The Shockproof Impactor Core 1.5 thermal phone cover provides improved drop protection while preserving the slim, ultralight design. Its 360-degree protection meets or exceeds the 810G 516.6 military standard. This case is also water-resistant and will not interfere with cellular or WiFi signals.

This case also protects your phone from extreme temperatures. It prevents the battery from overheating and helps your battery last longer. This case can be attached to a backpack or other accessories. It will prevent your phone from overheating in extreme temperatures and increases battery life by up to four times.

Universal design fits all brands of cell phones

Universal design is a design strategy for products that are easy to use. These features have little or no effort on the part of the user and are often hard to detect by a non-user. Examples of universally designed products include automatic door openers. The door opens automatically when you move closer to it. In contrast, many products in the information technology field are incredibly complex and the user must work very hard to use them.

NASA technology protects your phone from overheating in the sauna

Your phone is a highly sensitive device. When heated to a certain temperature, it will quickly turn off and be rendered unusable. Fortunately, many modern models have an automatic cutoff function that kicks in when the phone gets too hot. This feature is designed to protect your phone from overheating when you use apps like gaming or streaming videos. However, it is still possible for your phone to get overheated when you use it in a sauna. The saunas’ air temperatures are much higher than what your phone is designed for and can cause damage.

Using NASA technology, PHOOZY has designed an award-winning phone case that protects your phone from overheating in a sauna. Not only does it protect your phone from the heat in a sauna, it will also extend its battery life. It’s also drop-resistant and floats in water. The case is also ultra-light and slim. The case uses Chromium Thermal Barrier technology, which is borrowed from NASA’s space suits.

Integrated NASA spacesuit technology extends battery life in the cold

Integrated NASA spacesuit technology extends battery lifetime in the cold by allowing your phone to maintain its optimal temperature. It uses a patented Chromium thermal barrier to reflect up to 90% of heat away from the phone. This allows the battery to last up to four times longer in extreme cold temperatures. It is important to note, however, that this product should not be left in a hot car for extended periods.

NASA spacesuits use a sophisticated manufacturing process that includes multiple phases. The first phase involves assembly of individual components. The second stage involves testing the suit’s functionality under operational pressure.

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