Lab Report
The GoldenWave Carbon Heat Board used in this product was tested
by National Taiwan Normal University Physics Department far-infrared
Lab and Japan Osaka Far Infrared Ray Applied Association Lab test
approval, far-infrared ray is close to perfection for human body
and its influence is the most absolute and can not be compared
with other similar unapproved products.
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National Taiwan Normal University, Physics Major, Far-infrared Lab, Yang
zun-rong professor signed document in English. |
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GoldenWave Carbon Heat Board |
Japan Osaka Far Infrared Ray Applied Association Experiment Result
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Refer to far-infrared ray test result
(details continues below) |
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Heat reflection installation outline |
About Far Infrared Wavelength Emission Rate Experiment
as translated from Japanese
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| Characteristics of Far Infrared Wave |
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The wavelength of the far Infrared wave is 4.0 to 1,000 microns.
In contrast, the wavelength between .75 and 4.0 is called the
Near Infrared wave.When comparing Far Infrared to Near Infrared,
it was found that Far Infrared utilized photon osmoses to reach
the deepest part of the human body and yet allowed a feeling
of warmth within a comfortable range. Near Infrared proved to
create heat that was not comfortable to the body.Any object can
accept energy from an outside environment. Far Infrared emits
more energy than other types of energy sources. |
| Examine far Infrared Wave |
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A changeable Infrared spectrophotometer (FTIR) was used during
the scientific investigation. Please see attachment for the general
outline.A black object was used as the testing material so that
the same temperature could be maintained when examining the 4.0
to 1,000 micron wavelength. The average energy emission rate
is the difference between the testing material emission rate
and the black objects energy emission rate. |
| Explanation of the Chart |
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1. |
Two Curves Chart: This represents the status of the testing
materials energy emission rate. The X axis represents the status
of the testing wavelength (unit: 1/million) represents 1/24 mission.
The Y axis represents the degree of the wave for energy emission
rate. It shows 1cm square carries the W value. The upper curve
represents the black object (100% consumption of the reflected
light wave to yield the largest energy emission object) or energy
emission amount. The red curve represents the testing material
energy emission amount in pictorial representation. The higher
the energy emission rate the closer the black curve is to the
red curve. |
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2. |
One Straight Curve Chart: It shows that when the degree of
the energy for the black object is set at 100, the testing materials
emission rate is in what degree. The X axis represents the same
wavelength with the degree of the energy emission rate in the
chart. The Y axis represents the emission rate in %. In comparison
with the different types of testing materials, the black objects
energy emission rate is 100% and the testing material, due to
the lack of material data, cannot identify the value. Hence,
we use this chart for emission rate guide. |
| Explanation of Special Term |
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resol:16cm-1: |
represents the resolution rate, rated wave is 400-2500cm-1 and its one wave unit is 16cm-1 for testing. |
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TEMP: |
represents rated temperature for testing of materials
surfaced temperature. |
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P.INT:8cm-1: |
represents the gap between each wave unit and what was
recorded by the computer on the disc. The record is made
by 2 times the density and the rated gap wave is 16 wave
units. |
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SCANS:200: |
the number of scanning in every 200 times at the same wave
position. |
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S.SPEED:MCT: |
the speed of the scan, the experiment uses MCT testing
equipment (high speed and high ability) for testing the speed. |
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Wxsr-1xcm-2: |
this represents the degree of the lightness, from the micro
area toward a bigger area. |
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*the energy emission rate is the ability of
emitting the energy out |
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