Theory of thermography
25
Figure 25.5
Wilhelm Wien (1864–1928)
The sun (approx. 6 000 K) emits yellow light, peaking at about 0.5 μm in the middle of
the visible light spectrum.
At room temperature (300 K) the peak of radiant emittance lies at 9.7 μm, in the far infra-
red, while at the temperature of liquid nitrogen (77 K) the maximum of the almost insignif-
icant amount of radiant emittance occurs at 38 μm, in the extreme infrared wavelengths.
Figure 25.6
Planckian curves plotted on semi-log scales from 100 K to 1000 K. The dotted line represents
the locus of maximum radiant emittance at each temperature as described by Wien's displacement law. 1:
Spectral radiant emittance (W/cm
2
(μm)); 2: Wavelength (μm).
25.3.3
Stefan-Boltzmann's law
By integrating Planck’s formula from λ = 0 to λ = ∞, we obtain the total radiant emittance
(W
b
) of a blackbody:
This is the Stefan-Boltzmann formula (after
Josef Stefan
, 1835–1893, and
Ludwig Boltz-
mann
, 1844–1906), which states that the total emissive power of a blackbody is propor-
tional to the fourth power of its absolute temperature. Graphically, W
b
represents the
area below the Planck curve for a particular temperature. It can be shown that the radiant
emittance in the interval λ = 0 to λ
max
is only 25% of the total, which represents about the
amount of the sun’s radiation which lies inside the visible light spectrum.
#T559950; r. AD/35720/35720; en-US
97
Содержание A615
Страница 1: ...User s manual FLIR A6xx series...
Страница 2: ......
Страница 3: ...User s manual FLIR A6xx series T559950 r AD 35720 35720 en US iii...
Страница 4: ......
Страница 8: ......
Страница 22: ...Mechanical installation 9 Example 2 cable strain relief with cable clamps T559950 r AD 35720 35720 en US 14...
Страница 71: ...Mechanical drawings 16 T559950 r AD 35720 35720 en US 63...
Страница 81: ...CE Declaration of conformity 17 T559950 r AD 35720 35720 en US 73...
Страница 82: ......
Страница 84: ...Digital I O connection diagrams 19 T559950 r AD 35720 35720 en US 76...
Страница 85: ......