Radiation imagery chemistry: process – composition – or product th – Thermographic process – Heat applied before imaging
Reexamination Certificate
2000-12-06
2002-11-26
Schilling, Richard L. (Department: 1752)
Radiation imagery chemistry: process, composition, or product th
Thermographic process
Heat applied before imaging
C430S523000, C430S531000, C430S533000, C430S539000, C430S637000, C430S638000, C430S639000, C430S640000, C430S930000, C427S316000, C427S393500
Reexamination Certificate
active
06485896
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a photographic film with low core-set curl and more particularly to a photographic film comprising an emulsion layer whose composition is modified so as to lower the core-set curl propensity of the film.
BACKGROUND OF THE INVENTION
In many imaging applications excessive film curl can cause serious difficulties with film transport and handling and it is, therefore, important to reduce the core-set propensity of the image-bearing film to meet system specifications. Over the years many approaches have been taken to reduce core-set curl in photographic films. Most approaches are associated with the film base, which normally makes the most significant contribution to the core-set curl produced by the film. These approaches can be generally grouped in terms of five distinct mechanisms: (1) physical aging, (2) inherent curl, (3) ironing, (4) reverse winding, and (5) addition of a restraining layer. Each of these mechanisms is applicable for certain types of films and selection of one over the other depends on the particular circumstances of the problem at hand. Following is a brief summary of these general approaches.
(1) Physical Aging.
This method is practiced by heating the finished film (usually but not always) in a wound state to relatively high temperatures (typically 10 to 40° C. below the glass transition temperature) for relatively long times (typically >1 day) in order to lower the propensity of the film to take up curl in subsequent winding operations. This method changes the relaxation characteristics of the film (an aged film relaxes slower than a fresh film) and is especially useful when the final winding diameter of the film is much less than the diameter during annealing. This approach is discussed in U.S. Pat. Nos. 4,141,735; 5,254,445; 5,629,141 and 5,585,229.
(2) Inherent Curl.
During the manufacture of film support it is possible to induce curl in a given direction by differentially (asymmetrically) heating the film during the stretching step, i.e., by inducing a temperature gradient of ca. 10-15° C. across the thickness of the film as it is stretched above the glass transition temperature. If this inherent curl is in a direction opposite of the expected core-set curl it will compensate to some extent for the curl induced during winding and will yield lower effective curl. This method requires significant modification of the film manufacturing process and fine-tuning the stretching temperature of the material. This approach is considered in U.S. Pat. Nos. 4,892,689 and 4,994,214. The latter combines the inherent curl approach with physical aging; it clearly requires a fundamental change in the film making process as well as storage for long times at relatively high temperatures.
(3) Ironing.
By heating relatively short and narrow film sections to temperatures in the vicinity of Tg it is possible to remove curl induced by core-set. This method requires some tension as the film is conveyed through the heating device and the heated film must be either flat or slightly curved in a direction opposite of the expected core-set curl. Residence times for this heating method are relatively short, of the order of minutes or less. However, this method is not ideally suited for treating wide and long production rolls because of the difficulty of controlling temperature uniformity and the possibility of scratching the film and damaging the coated emulsions within the ironing device. Examples of this approach are discussed in U.S. Pat. Nos. 3,916,022; 4,808,363; 4,851,174 and 5,549,864.
(4) Reverse Winding.
By winding the film in the opposite direction of its induced core-set curl the curl value can be reduced. This can be done in principle at any temperature but the rate of curl change depends on the temperature at which the film is stored and may require very long times to achieve a meaningful reduction in curl at ambient conditions. U.S. Pat. No. 3,806,574 falls under this general category but the way it is proposed in the preferred embodiment is not suitable for use in an on-line production mode since the reverse wound roll must be stored for long times (depending on the original storage time), often greater than one day, to make an effective change in curl. In an attempt to alleviate this problem, U.S. Pat. No. 5,795,512 teaches that a combination of reverse winding and mild heating of the film can effectively reduce core-set curl after relatively short storage times.
(5) Addition of a Restraining Layer.
U.S. Pat. No. 6,071,682 teaches that by coating a thin polymeric layer on the side of the base opposite the emulsion it is possible to reduce the core-set propensity of the base layer provided that the coated layer is sufficiently thick and that the glass transition temperature of the polymeric layer is equal to or greater than that of the base layer.
All of the above approaches involve changes applied to the base layer. In photographic films comprising relatively thick emulsion layers, the contribution of the emulsion layer to film core-set can be appreciable and changes in the composition and structure of this layer can impart significant changes to film core-set.
The present invention discloses that the emulsion layer can be made to affect film core-set. In particular, when the melting point of the emulsion layer is lowered, film set curl is significantly lowered.
The art needs new approaches to this problem, including changes to the emulsion layers, especially when they are relatively thick.
SUMMARY OF THE INVENTION
The core-set curl of photographic films depends largely on the properties of the support layer, but if the emulsion layer is relatively thick (about 10-30 microns), its contribution to film core-set becomes important. In the present invention the emulsion layer is modified so as to reduce its contribution to the overall film core-set. By lowering the melt temperature of the emulsion layer to within 4 degrees C. of the incubation temperature used in the core-set test described herein, the core-set curl of the emulsion layer is significantly reduced thus lowering the overall film core-set. Suppression of the melting point of the emulsion layer can be accomplished, for example, by the addition of a sufficient quantity of a humectant such as glycerol. This approach is feasible only if an accelerated core-set test is applied, that is, if the test involves incubation of the wound film under high temperature to simulate long term storage under extreme environmental conditions.
DETAILED DESCRIPTION OF THE INVENTION
The present invention is a silver halide photographic film comprising a film base bearing at least one emulsion layer with the emulsion layer comprising gelatin as a major component. The method of manufacture of such a film is well known in the art.
When the film is wound on a spool it is likely to take up some core-set curl, the extent of which depends on the diameter of the spool, the duration of winding (storage time) and the storage temperature. If the curl exceeds a certain prescribed limit, the film will likely have poor transport in a camera, or during photographic processing. Because of the tendency to lower the size of film cartridges, hence decrease spool diameter, the problem of maintaining low core-set curl has become more acute. General efforts in this regard have led to the use of a high Tg film base material, e.g., poly(ethylene naphthalate) (PEN), and costly base annealing procedures as described in U.S. Pat. Nos. 4,141,735; 5,254,445; 5,629,141 and 5,585,229. However, in films comprising relatively thick emulsion layers (ratio of emulsion layer thickness, t
e
, to base layer thickness, t
b
, >0.15) the emulsion layer can potentially make a significant contribution to film core-set.
The core-set propensity of the film is often measured under extreme conditions to simulate long storage times and adverse environmental conditions—the Accelerated Core-Set Test. Such tests are conducted by winding the film around an actual spool and incubating the film at high temperature for a pres
Greener Jehuda
Visconte Gary W.
Wang Yongcai
Eastman Kodak Company
Schilling Richard L.
Wells Doreen M.
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