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Far-infrared sauna treatment energy is different from any other radiation heat
- Feb 14, 2019 -

In most cases, the knowledge with far-infrared citizens is limited to the use of infrared thermal insulation lamps, which generate radiation heat. By the mid-1960s, NASA had identified the amount of mineral oxides as far-infrared waves that could be produced. Following the use of different types of far-infrared products in the space program, NASA has made no further progress using this technology. For the obvious advantage of others, Japan has pioneered and developed 150 products, which need to involve far-infrared technology patents. Some of them include: far-infrared ovens to replace microwaves, far-infrared panels in obstetric wards, ceramics produced by far-infrared waves, and, of course, far-infrared sauna incubators. Over the past 25 years, researchers and clinicians in China and Japan have conducted extensive research on infrared physiotherapy, and have demonstrated substantial benefits.

Dr. Tianjin Oliver adds to his understanding of far infrared and resonance absorption of self-healing forces discussed by him: these rays are generated within tissues by selective absorption of infrared energy, usually associated with multiple healing reactions within tissues, and may require a boost to a maximum level to ensure that the full healing response of tissues may be maintained. When the level of the boost tissue reaches its maximum, the remaining light passes through harmlessly. This phenomenon is called resonance absorption.

The reason for this is that infrared saunas are so unique that they use radiation energy that penetrates directly into human tissues to a depth of more than 1.5. Its energy output can be adjusted so that our bodies absorb close to 93% of our skin's infrared wave, which closely corresponds to the body's own radiation energy. Infrared energy is less than 20% to heat air, so that more than 80% can be directly converted into heating in our body. Therefore, far-infrared-based systems can be much more efficient than traditional sauna rooms in warming their users with greater depth and.

This important difference explains the incomparable advantage that many reports fail to achieve by using a standard far-infrared sauna room through infrared thermal systems. Far-infrared sauna produces the most hot air sauna 2-3 times sweat in 110 to 130 degrees and 180 degrees to 235 degrees of hot air sauna work within the temperature range of fairly cool air. Lower heat scales are ideal for those who worry that higher temperatures may adversely affect cardiovascular risk factors from traditional hot saunas.

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