K-14 process
K-14 was the most recent version of the developing process for Kodak's Kodachrome transparency film before its discontinuation. It superseded previous versions of the Kodachrome process used with older films.
The K-14 process differed significantly from its contemporary, the E-6 process, in both complexity and length. Kodachrome film has no integral color couplers; dyes are produced during processing by the reaction of the color coupler with the oxidized developing agent, both in the developer solution.
Due to declining sales, Kodak discontinued production of all K-14 chemistry in 2009, concurrently with Kodachrome 64 film. Dwayne's Photo, in Parsons, Kansas, operated the last K-14 line in the world, discontinued sales on 30 December 2010; the last roll was processed on 18 January 2011.
Steps
The cross-section of Kodachrome film consists of layers which are, from top-to-bottom: blue sensitive, yellow filter, blue-green sensitive, blue-red sensitive, acetate base, rem-jet anti-halation backing.The blue-green and blue-red sensitive layers are primarily sensitive to green and red light, respectively, but are sensitive to blue light as well. The yellow filter layer is added to prevent blue light from penetrating to these layers during exposure.
| Step | Action | Schematic | Description |
| 1 | Backing removal | An alkaline bath softens the cellulose acetate phthalate binder. A spray wash and buffer removes the rem-jet anti-halation backing. | |
| 2 | First Developer | All exposed silver halide crystals are developed to metallic silver via a PQ developer. The yellow filter layer becomes opaque because it has a combination of Lippmann emulsion and Carey Lea silver | |
| 3 | Wash | Stops development and removes the PQ developer. | |
| 4 | Red light re-exposure through the base | This makes the remaining undeveloped silver halide in the cyan layer developable. | |
| 5 | Cyan developer | The solution contains a color developer and a cyan coupler. These are colorless in solution. After the color developer develops the silver, the oxidized developer reacts with the cyan coupler to form cyan dye. The dye is much less soluble than either the developer or the coupler so it stays in the blue-red sensitive layer of the film. | |
| 6 | Wash | ||
| 7 | Blue light re-exposure from the top | This makes the remaining undeveloped silver halide grains in the blue sensitive layer developable. The now opaque yellow filter layers prevents the blue light from exposing the magenta layer. It is important to avoid stray printing light exposing the film base of film. | |
| 8 | Yellow developer | Analogous to the cyan developer. | |
| 9 | Wash | ||
| 10 | Magenta developer | This contains a chemical fogging agent that makes all of the remaining undeveloped silver halide developable. If everything has worked correctly, nearly all of this silver halide is in the magenta layers. The developer and magenta coupler work just like the cyan and yellow developers to produce magenta dye that is insoluble and stays in the film. | |
| 11 | Wash | ||
| 12 | Conditioner | Prepares the metallic silver for the bleach step. | |
| 13 | Bleach | Oxidises the metallic silver to silver halide. The bleach must be aerated. The former ferricyanide bleach did not require aeration and did not require a conditioner. | |
| 14 | Fix | Converts the silver halide to soluble silver compounds which are then dissolved and washed from the film. | |
| 15 | Wash | Washes the fixer out of the film. | |
| 16 | Rinse | Contains a wetting agent to reduce water spots. | |
| 17 | Dry |
The result is three different color records each with the appropriate dye, just like other color films. The original Kodachrome process in 1935 used dye bleaches and was a far more complex process; the dyes themselves were unstable and faded at high temperature. Although the formulae have changed over the years, the basic process steps have followed a similar pattern since the introduction of "selective re-exposure" Kodachrome in 1938.