Claims
- 1. An imaging process comprising:
- providing an imaging member comprising a substrate, a layer of substantially electrically insulating softenable material containing agglomerable migration marking marking material comprising a fracturable layer of said agglomerable migration marking material, said softenable layer capable of having its resistance to migration of agglomerable migration marking material decreased sufficiently to allow migration of agglomerable migration marking material in depth in said softenable layer, a layer of gelatin overlying said softenable layer and said fracturable layer of said agglomerable migration marking material contacting said gelatin layer-softenable layer interface;
- forming an electrical latent image on said imaging member; and
- developing said imaging member by decreasing the resistance to migration of agglomerable migration marking material in depth in the softenable layer at least sufficient to allow imagewise migration of agglomerable migration marking material in depth in the softenable layer.
- 2. The imaging process of claim 1 wherein said member is developed by heating sufficiently to decrease the resistance of the softenable material to migration of agglomerable migration marking material.
- 3. The imaging process of claim 2 wherein the heat development is continued to a temperature sufficient to agglomerate the migrated agglomerable migration marking material whereby the migrated agglomerable migration marking material agglomerates and/or fuses, while the unmigrated agglomerable migration marking material remains substantially intact in its initial position contacting the gelatin layer-softenable layer interface.
- 4. The imaging process of claim 3 wherein the imaging member is provided with a second substantially transparent overlayer of material overlying the layer of gelatin.
- 5. The imaging process according to claim 3 wherein the layer of gelatin comprises a layer with a thickness of from about 0.01 to about 1.0 microns of photographic grade gelatin with a molecular weight ranging from about 20,000 to about 100,000.
- 6. An imaging process comprising:
- providing an imaging member comprising a substrate, a layer of substantially electrically insulating softenable material containing electrically photosensitive agglomerable migration marking material comprising a fracturable layer of said material, said softenable layer capable of having its resistance to migration of agglomerable migration marking material decreased sufficiently to allow migration of migration material in depth in said softenable layer, a layer of gelatin on the softenable layer, said fracturable layer of said agglomerable migration marking material contacting said gelatin layer - softenable layer interface.
- electrically charging said imaging member;
- exposing said member to an image pattern of activating electromagnetic radiation whereby an electrical latent image is formed thereon; and
- developing said imaging member by decreasing the resistance to migration of agglomerable migration marking marking material in depth in the softenable layer at least sufficient to allow imagewise migration of agglomerable migration marking material at least in depth in said softenable layer.
- 7. The imaging process of claim 6 wherein said member is developed by heating sufficiently to decrease the resistance of the softenable material to migration of agglomerable migration marking material.
- 8. The imaging process of claim 7 wherein the heat development is continued to a temperature sufficient to agglomerate the migrated agglomerable migration marking material whereby the migrated agglomerable migration marking material agglomerates and/or fuses, while the unmigrated agglomerable migration marking material remains substantially intact in its initial position contacting the gelatin layer - softenable layer interface.
- 9. The imaging process of Claim 8 wherein the electrically photosensitive material comprises vitreous selenium.
- 10. The imaging process of claim 8 wherein the layer of gelatin comprises a layer with a thickness of from about 0.01 to about 1.0 microns of photographic grade gelatin with a molecular weight ranging from about 20,000 to about 100,000.
- 11. The imaging process of claim 9 wherein the imaging member is provided with a second substantially transparent overlayer of material overlying the layer of gelatin.
- 12. An imaging process comprising:
- providing an imaging member comprising a substrate, a layer of softenable material containing agglomerable migration marking material comprising a fracturable layer of said agglomerable migration marking material, said softenable layer capable of having its resistance to migration of agglomerable migration marking material decreased sufficiently to allow migration of agglomerable migration marking material in depth in said softenable layer, a layer of gelatin overlying the softenable layer, and said fracturable layer of said agglomerable migration marking material contacting said gelatin layer-softenable layer interface;
- forming an electrical latent image on said imaging member; and
- developing said imaging member by decreasing the resistance to migration of agglomerable migration marking material in depth in the softenable layer at least sufficient to allow imagewise migration of agglomerable migration marking material at least in depth in said softenable layer.
- 13. The imaging process of claim 12 wherein said member is developed by heating sufficiently to decrease the resistance of the softenable material to migration of agglomerable migration marking material.
- 14. The imaging process of Claim 13 wherein the heat development is continued to a temperature sufficient to agglomerate the migrated agglomerable migration marking material whereby the migrated agglomerable migration marking material agglomerates and/or fuses, while the unmigrated agglomerable migration marking material remains substantially intact in its initial position contacting the gelatin layer - softenable layer interface.
- 15. The imaging process of Claim 14 wherein the imaging member is provided with a second substantially transparent overlayer of material overlying the layer of gelatin.
- 16. The imaging process of claim 14 wherein the layer of gelatin comprises a layer with a thickness of from about 0.01 to about 1.0 microns of photographic grade gelatin with a molecular weight ranging from about 20,000 to about 100,000.
CROSS-REFERENCE TO RELATED APPLICATIONS
This is a continuation of application Ser. No. 97,866, filed Dec. 14, 1970 now abandoned, which is a continuation-in-part of application Ser. No. 172, filed Jan. 2, 1970, now abandoned.
US Referenced Citations (10)
Continuations (1)
|
Number |
Date |
Country |
Parent |
97866 |
Dec 1970 |
|
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
172 |
Jan 1970 |
|