| 摘要 |
The automated selection of the best calibration for measuring selected physical, chemical or atomic properties of continuous moving sheets, or of a coating on the sheets, is provided by the use of an on-line qualitative multi-band infrared measurement of the material. The multi-band qualitative measurement produces a spectral pattern of the material, which is matched to a library of potential materials. Once the best spectral pattern match is selected, then the known calibration constant values are used to make quantitative measurements on selected properties of the sheet of material, or of a coating on the material. Typically, a property of interest is the weight per unit area (i.e., grams per square meter) of a plastic coating on a paper substrate. The automated selection may be done on a periodic basis to adapt to variations in the substrate material that would otherwise cause the quantitative measurements of the coating to become erroneous due to calibration errors. Alternatively, the automated selection may be done whenever there is a splice in the substrate material, to catch substrate vendor changes, substrate composition changes or other substrate conditions which may affect calibration values. The automated selection may be done essentially continuously as a check on the quantitative measurements, in response to an alarm such as a quantitative measurement that is outside of a specified range, or in response to a manual operator instruction. With such an arrangement, a coating measurement becomes substrate independent and can maintain proper coating thickness process control over a wider product range, while permitting simpler inventory control. |
