Apparatus and method for quantitative evaluation of braze bonding length with use of radiation

1 . An apparatus which quantitatively evaluates a braze bonding length of a specimen by using radiation, comprising: a radiation emission unit configured to emit radiation in a braze bonding length direction to each of a plurality of partial specimens which are obtained by cutting the specimen in a plane perpendicular to the braze bonding length direction; a light generator configured to generate light of an amount corresponding to an intensity of transmissive radiation which is part of the radiation emitted by the radiation emission unit, the part of the radiation having passed through each of the partial specimens; an imaging unit configured to photograph the light generated by the light generator in accordance with the intensity of the transmissive radiation; and a calculator configured to calculate a braze bonding length of each of the partial specimens, from a light amount recognized from a photographed result obtained by the imaging unit with respect to each of the partial specimens, based on a correlation between a braze bonding length and a light amount which is pre-acquired, and to calculate the braze bonding length of the specimen by totaling the calculated braze bonding lengths of the respective partial specimens. 2 . The apparatus of claim 1 , wherein the radiation is X rays. 3 . The apparatus of claim 1 , wherein the specimen is a part of a mockup of an actual device, and the specimen is braze-bonded under the same condition as the actual device. 4 . The apparatus of claim 1 , wherein the photographed result by the imaging unit is a two-dimensional image, and each of the partial specimens includes an alignment portion for two-dimensional alignment of each of the partial specimens. 5 . The apparatus of claim 1 , wherein the correlation is represented by a polynomial expression. 6 . The apparatus of claim 1 , further comprising a fixing unit configured to fix each of the partial specimens such that the radiation is emitted to each of the partial specimens at an identical position. 7 . The apparatus of claim 1 , further comprising a shield plate configured to cover a surrounding of the partial specimen to which the radiation is emitted by the radiation emission unit, such that only the transmissive radiation reaches the light generator. 8 . The apparatus of claim 1 , wherein the imaging unit is configured to photograph the light generated by the light generator, with respect to each of a plurality of frequency bands, the correlation is a pre-acquired correlation between the braze bonding length and the light amount with respect to each of the plurality of frequency bands, and the calculator is configured to calculate, with respect to a frequency band that is any one of the plurality of frequency bands, the braze bonding length of each of the partial specimens, from a light amount recognized from a photographed result at the frequency band, based on the correlation at the frequency band. 9 . A method of quantitatively evaluating a braze bonding length of a specimen by using radiation, comprising: emitting radiation in a braze bonding length direction to each of a plurality of partial specimens which are obtained by cutting the specimen in a plane perpendicular to the braze bonding length direction; generating light of an amount corresponding to an intensity of transmissive radiation which is part of the emitted radiation, the part of the emitted radiation having passed through each of the partial specimens; photographing the light generated in accordance with the intensity of the transmissive radiation; calculating a braze bonding length of each of the partial specimens, from a light amount recognized from a photographed result obtained with respect to each of the partial specimens, based on a correlation between a braze bonding length and a light amount which is pre-acquired; and calculating the braze bonding length of the specimen by totaling the calculated braze bonding lengths of the respective partial specimens. 10 . The method of claim 9 , wherein the radiation is X rays. 11 . The method of claim 9 , wherein the specimen is a part of a mockup of an actual device, and the specimen is braze-bonded under the same condition as the actual device. 12 . The method of claim 9 , wherein the photographed result is a two-dimensional image, and each of the partial specimens includes an alignment portion for two-dimensional alignment of each of the partial specimens. 13 . The method of claim 9 , wherein the correlation is represented by a polynomial expression. 14 . The method of claim 9 , wherein each of the partial specimens is fixed such that the radiation is emitted to each of the partial specimens at an identical position. 15 . The method of claim 9 , wherein the light is generated by only the transmissive radiation. 16 . The method of claim 9 , wherein the generated light is photographed with respect to each of a plurality of frequency bands, the correlation is a pre-acquired correlation between the braze bonding length and the light amount with respect to each of the plurality of frequency bands, and when the braze bonding length of each of the partial specimens is calculated, the braze bonding length of each of the partial specimens is calculated, with respect to a frequency band that is any one of the plurality of frequency bands, from a light amount recognized from a photographed result at the frequency band, based on the correlation at the frequency band.