Class / Patent application number | Description | Number of patent applications / Date published |
430137210 | By dry blending developer components | 8 |
20100266950 | TONER - The toner of the present invention, comprising a colored resin particle and an external additive, wherein said external additive contains a silica fine particle (A) having a Dv50/Dv10 of 1.8 or more, in which Dv10 represents a particle diameter at which a volume cumulative total from small particle diameter side is 10% and Dv50 represents a particle diameter at which the mentioned volume cumulative total is 50%, a volume average particle diameter in the range from 0.1 to 1.0μ, and a sphericity in the range from 1 to 1.3. The toner of the present invention cause less fog, and excellent resolution on the printed image, excellent in cleaning property, and cause less filming. | 10-21-2010 |
20130011782 | POLYMER EXPANDED PARTICLE, EXPANDED TONER AND METHOD FOR PRODUCING POLYMER EXPANDED PARTICLE AND EXPANDED TONER - A polymer expanded particle and an expanded toner having small pores, and a production method thereof are provided. A polymer expanded particle comprises micropores having an average pore diameter of less than 50 μm. An expanded toner comprises micropores having an average pore diameter of 1 μm to less than 3 μm, wherein volume average particle diameter is 5 μm to less than 15 μm. A method for producing a polymer expanded particle comprises a first step for mixing specific polymer particles with high pressure gas or supercritical fluid, to prepare a mixture, a second step for impregnating with the high pressure gas or the supercritical fluid to the inside of the polymer particles, and a third step for reducing pressure and temperature of the mixture, to form the polymer expanded particle, wherein the pressure and temperature in the third step is reduced for 5 minutes or less from a state of 20 MPa or greater and 60° C. or greater to a state of less than 1 MPa and less than 30° C., respectively. | 01-10-2013 |
20130295504 | PREPARING DRY TONER PARTICLES FOR METALLIC EFFECT - Metallic dry toner particles are prepared by dry blending resin particles with non-conductive metal oxide particles to form a dry blend. This dry blend is melt extruded under low shear conditions to form an extruded composition that is broken up into metallic dry toner particles. Each metallic dry toner particle consists essentially of a polymeric binder phase formed from the resin particles, and the non-conductive metal oxide particles dispersed within the polymeric binder phase. The metallic dry toner particles have a mean volume weighted diameter (D | 11-07-2013 |
20140106276 | DISPENSING TONER ADDITIVES VIA CARRIER DISPENSE - The present disclosure provides a process for the preparation of developer compositions comprising: a first developer comprised of carrier and toner comprised of resin, pigment, polyolefin, compatibilizer, charge control agent, and metal oxide surface additive, and adding thereto a second developer comprised of carrier, and second compatibilizer, charge control agent, and metal oxide surface additive. The second developer can be directly dispensed into a developer housing. | 04-17-2014 |
20140106277 | ELECTROPHOTOGRAPHIC TONER AND PROCESS FOR PRODUCING ELECTROPHOTOGRAPHIC TONER - Disclosed is an decolorizable electrophotographic toner, containing a binder resin, an electron-donating color-developable agent, and a wax having a color-developing action and having an acid value of 60 mgKOH/g or more. | 04-17-2014 |
20150017585 | TONER PARTICLE PROCESSING - A process includes adding a particulate toner additive to toner particles to form a slurry, filtering the slurry to form a filter cake, the particulate toner additive functioning as a filtration aid, and washing the filter cake, after the washing step the toner particles have a portion of the particulate toner additive adhered thereto, and de-agglomerating/drying the toner particles with the additive, after the drying step the toner particles have a portion of the particulate toner additive adhered thereto. | 01-15-2015 |
20160168337 | Latex Preparation Using An Agitated Reactor Column | 06-16-2016 |
20160179022 | Method to Achieve Tribocharge Uniformity of a Developer Mix Across Different Temperature and Humidity Conditions by Modifying the Surface of the Magnetic Carrier Particle | 06-23-2016 |