Full-scale object surface spectral reflectivity test method

Abstract

The invention discloses a full-scale object surface spectral reflectivity test method. The method comprises the following steps: firstly, determining a signal intensity value E1n and a normalization coefficient C1n of a specified wavelength by using a 100% reflectivity calibration reference sheet, secondly, determining a signal intensity value Ekn and a reduction coefficient Ckn of the specified wavelength by using a low-reflectivity calibration reference sheet, measuring the signal intensity En of a test point of the specified wavelength of an actual visible region of a workpiece, determiningweights of admissibility of C1n and Ckn according to a range into which the En falls, figuring out a normalization standard coefficient Cn, and finally determining the position Rn of the specified wavelength. A tester determines the normalization coefficient and a reduction coefficient by using the calibration reference sheet and further determines the normalization standard coefficient Cn. The error of the test data in the whole process is small, the full-scale object surface reflectivity spectral reflectivity test method is applicable to the full scale, and the operation is convenient and quick.

Description

technical field [0001] The invention belongs to the technical field of photoelectric detection, in particular to a method for testing the spectral reflectance of a full-scale object surface. Background technique [0002] In recent years, vacuum coating technology has developed rapidly and has been widely used, and its economic volume is huge. Vacuum coating products are usually mirror surfaces. The surface spectral reflectance curves of the coated products produced by different coating materials have different shapes, and the shape of the spectral reflectance curve of the coated surface directly represents the difference in the apparent color of the coated surface. The values ​​of spectral reflectance on the surface of different coating products range from a few percent to tens of percent, and the value span is quite large. In actual operation, a spectrophotometer is often used to detect the finished quality of coated products. [0003] The spectrophotometer mainly uses t...

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Problems solved by technology

But the applicant finds that when using the spectrophotometer to test the lower workpiece surface of spectral reflectance (such as flat glass workpiece, AR coating workpiece, etc.), a smaller test electrical signal intensity En is read during actual testing, because This En is so small that it exceeds the linear region where the E1n read when doing "normalization" calibration, resulting in a large error when it tests low-reflectance samples. This spectrophotometer is only suitable for testing workpieces with high spectral reflectance

[0005] Another array spectrophotometer commonly used in existing reflectance testing experiments is widely used to measure the spectral reflectance after the optical lens is coated with AR film, but it is not suitable for testing high reflectivity objects. The spectral reflectance of the surface, read a larger test electrical signal strength En during the actual test, because this En is too large to exceed the linear region where the Ekn read during the "reduction" calibration, causing it to test high reflectance There will be a large error when measuring the ratio of the sample, the spectrophotometer is only suitable for testing workpieces with low spectral reflectance

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