Radiography in Modern Industry - Kodak

slow, and the development time recommended for the normal temperature would result inunderdevelopment. When the temperature is high, the reaction is fast, and the same time wouldresult in over development. Within certain limits, these changes in the rate of development can becompensated for by increasing or decreasing the time of development.The time-temperature system of development should be used in all radiographic work. In thissystem, the developer temperature is always kept within a small range and the time ofdevelopment is adjusted according to the temperature in such a way that the degree ofdevelopment remains the same. If this procedure is not carefully observed, the effects of even themost accurate exposure technique will be nullified. Films cannot withstand the effects of errorsresulting from guesswork in processing.In particular, "sight development" should not be used; that is, the development time for aradiograph should not be decided by examining the film under safelight illumination at intervalsduring the course of development. It is extremely difficult to judge from the appearance of adeveloped but unfixed radiograph what its appearance will be in the dried state. Even though thefinal radiograph so processed is apparently satisfactory, there is no assurance that developmentwas carried far enough to give the desired degree of film contrast. (See "Effect Of DevelopmentTime On Speed And Contrast".) Further, "sight development" can easily lead to a high level of fogcaused by excessive exposure to safelights during development.An advantage of standardized time-temperature processing is that by keeping the degree ofdevelopment constant a definite check on exposure time can always be made. This precludesmany errors that might otherwise occur in the production of radiographs. When the processingfactors are known to be correct but the radiographs lack density, underexposure can beassumed; when the radiographic image is too dense, overexposure is, indicated. The firstcondition can be corrected by increasing the exposure time; and the second, by decreasing it.The methods for calculating the required changes in exposure are given in Arithmatic ofExposure.Control of Temperature and TimeBecause the temperature of the processing solutions has a decided influence on their activity,careful control of this factor is very important. It should be a rule that the developer be stirred andthe temperature be checked immediately before films are immersed in it so that they can be left inthe solution for the proper length of time.Ideally, the temperature of the developer solution should be 68°F (20°C). A temperature below60°F (16°C) retards the action of the chemical and is likely to result in underdevelopment,whereas an excessively high temperature not only may destroy the photographic quality byproducing fog but also may soften the emulsion to the extent that it separates from the base.When, during extended periods, the tap water will not cool the solutions to recommendedtemperatures, the most effective procedure is to use mechanical refrigeration. Conversely,heating may be required in cold climates. Under no circumstances should ice be placed directly inprocessing solutions to reduce their temperature because, on melting, the water will dilute themand possibly cause contamination.Because of the direct relation between temperature and time, both are of equal importance in astandardized processing procedure. So, after the temperature of the developer solution has beendetermined, films should be left in the solution for the exact time that is required. Guessworkshould not be tolerated. Instead, when the films are placed in the solution, a timer should be setso that an alarm will sound at the end of the time.AgitationRadiography in Modern Industry 107