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chapter 7 Film Processing Three qualities constitute a good darkroom. A darkroom must be (1) clean, (2) organized, and (3) lightproof. Although individual darkrooms may vary in design, all should
possess the same qualities. A darkroom should be separate from the radiographic suite and should be used for only one purpose: processing exposed radiographs. Ideally, the room dimensions should be no less than 6 × 8 feet (2.6 × 2 m), and the layout should reduce the possibility of film damage. Most of the work in the darkroom is performed with minimal illumination. Therefore it is important that the darkroom be organized so that all of the equipment can be located quickly and easily. And, of
course, cleanliness is crucial. This is the only room where both the intensifying screens and the x-ray film are exposed to the air. If the countertops are dirty and soiled with chemicals, it is easy for both to be sucked into the cassette as it is opened, possibly causing damage to the intensifying screens. Another factor that is often overlooked in the darkroom is climate control. Because the film emulsion is extremely sensitive to heat and humidity, good ventilation
and temperature control are mandatory. A darkroom should be relatively cool and should have low humidity. The specific temperatures and humidity for proper film care are described in Chapter 6. Film processing, whether it is manual or automatic, comprises five basic steps: (1) developing, (2) rinsing or stop bath, (3) fixing, (4) washing, and (5) drying. The first
step in learning how to process a film is a basic understanding of the processing solutions. The chemical solutions can be purchased in a number of forms. Powders and liquid concentrates are those most commonly used in veterinary practice. Water is added to the concentrates according to the manufacturer’s instructions to produce the proper amount of solutions for the processing tanks. Preparing the chemicals correctly is important or the resulting solution may adversely affect the radiographic
product. Every effort should be made to keep the chemical solutions at a specified temperature—any variance may adversely affect the radiographic product. At temperatures below those recommended, some of the chemicals may become sluggish in action and may produce an underdeveloped or underfixed radiograph. At temperatures much above those recommended, the chemical activity is too high for manual control. Keep in mind also that all of the chemical solutions should be the same temperature. If the chemicals vary greatly in temperature, film reticulation can result. Reticulation appears as a mottled density on a finished radiograph and is caused by irregular expansion and contraction of the film emulsion. A quality assurance program should be established and maintained in the veterinary practice. This program allows reproducibility, and it gives the radiographer confidence in the exposures used on each radiograph (see Chapter 10). Premium Wordpress Themes by UFO Themes WordPress theme by UFO themes Author 1. Srivastava Ram Kumar ISBN 9789350250853 DOI 10.5005/jp/books/11399_10 Edition 1/e Publishing Year 2011 Pages 30 Author Affiliations 1. Chandra Dental College and Hospital, Barabanki, UP, India Chapter keywords Film processing, dental X-ray film, high-quality diagnostic dental radiographs, amalgam filling, silver halide crystals, chemical processing procedures, black metallic silver, exposed silver halide crystals, radiolucent structure, radiopaque structure, energized silver halide crystals, film emulsion, diaphoretic information, rinsing, fixation, agitating, oral surgery, liquid concentrate, developing agent, hydroquinone, elon, antioxidant sodium sulfate, preservative, alkali sodium carbonate, restrainer, fogged film, nondiagnostic, chemical deterioration, potassium alum, gelatin, panoramic film, thermometer, unwrapped dental X-ray, chemical contamination, lightening errors, overlapped films, fogged films, bulb wattage, radiograph, replenish, alkaline environment, alkaline accelerator, black metallic silver deposits, sodium hydroxide, sodium metaborate, sodium tetraborate What removes unexposed silver halide?A clearing agent, also known as fixing agent, is the chemical that actually removed undeveloped silver halide crystals from the film. Sodium thiosulfate and ammonium thiosulfate are commonly used.
Which processing solution removes the unexposed?The acidic fixing solution removes the unexposed and undeveloped silver bromide crystals from the film emulsion and re-hardens the emulsion that has softened during the development process.
What is the chemical that removes the unexposed silver halide crystals on the film?A chemical solution known as the fixer is used in the fixing process. The purpose of the fixer is to remove the unexposed, unenergized silver halide crystals from the film emulsion. The fixer hardens the film emulsion during this process. Fixation time is 10-15 minutes, double the developing time.
In what processing stage that unexposed silver halides are dissolved and removed from the emulsion?Fixation: The process by which the unexposed silver halide crystals are removed from the film and the gelatin is hardened. Fixer: The chemical solution used during fixation. Hardeners: Chemicals added to the fixing solution or to developers in automatic processors to prevent excessive emulsion swelling.
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What is the name of the fixing agent that removes unexposed silver halide crystals from the emulsion?
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