Abstract: The present disclosure is drawn to aqueous pigment co-dispersions. The co-dispersions include self-dispersed pigment with a chemically modified surface; released surface moieties from the self-dispersing pigment; pigment powder having the released surface moieties associated with pigment powder surfaces; polymeric dispersant; and water.

Abstract: Examples provide inkjet ink sets and related methods. An ink set may include a pre-treatment fixing fluid, an ink, and a post-treatment fluid including a binder and a surfactant having a hydrophilic-lipophilic balance (HLB) value of greater than about 12.

Abstract: Examples provide inkjet ink sets and related methods. An ink set may include a pre-treatment fixing fluid, an ink, and a post-treatment fluid including a wax and a binder present in the post-treatment fluid in a range of about 10 weight percent to about 30 weight percent.

Abstract: A convertible pump formed of wound flexible tubing having an inlet communicating water to an outlet at an opposite end of the tubing. A paddle wheel with collapsible fins provides power to rotate the pump when in a vertical position. A planar surface of the wound tubing forms a table when pivoted on a stand to a horizontal disposition with the support surface for the stand.

Abstract: The present disclosure provides ink-jet inks and associated methods. In one example, an ink jet ink can comprise an ink vehicle, a wax emulsion, and a latex particulate. The latex particulate can comprise multiple intermingled discrete polymer strands, including: a low Tg polymer strand having a Tg below 50° C. and a high Tg polymer strand having a Tg at 50° C. or above. Additionally, the Tg of the high Tg polymer strand can be at least 50° C. greater than the Tg of the low Tg polymer strand.

Abstract: The present disclosure provides fixer fluid compositions and related systems and methods. In one example, a fixer fluid can comprise a liquid vehicle, a surfactant, and a cationic polymer. The liquid vehicle can include water and co-solvent having a boiling point from 160° C. to 250° C., the co-solvent present in the fixer fluid in an amount of 1 wt % to 40 wt %. The surfactant can be present in the fixer fluid in an amount of 0.1 wt % to 10 wt %. The cationic polymer can be present in the fixer fluid in an amount of 0.1 wt % to 25 wt %. The fixer fluid can be formulated for printing on non-porous media and does not include more than 5 wt % volatile co-solvent and more than 3 wt % non-volatile co-solvent.

Abstract: A printing ink having improved printing performance is provided. The ink includes either a latex polymer derived from a monomer having an olefinic group and from about 1 to 10 wt % of N-phenylmaleimide or a latex polymer having a narrow particle size distribution that has a standard deviation of less than about 6% of average particle size, or both. The ink may be continuously printed for more than 1 hr without crusting.

Abstract: The present disclosure provides a white ink comprising an aqueous ink vehicle, a white colorant, and latex particles. The colorant can consist essentially of metal oxide particles present at from 2 wt % to 50 wt %, can have an average particle size from 100 nm to 1000 nm, and can have a high refractive index from 1.8 to 2.8. The latex can be present in the ink at from 2 wt % to 20 wt %, can have a glass transition temperature from 0° C. to 130° C., and can have a low refractive index from 1.3 to 1.6. The metal oxide particles and latex particles can be present in the white ink at weight ratio is from 6:1 to 1:3.

Abstract: The present disclosure provides latexes and related methods and inkjet inks incorporating such latexes. A latex particulate can comprising multiple intermingled discrete polymer strands, including a low Tg polymer strand having a Tg below 50° C. and a high Tg polymer strand having a Tg at 50° C. or above. The Tg of the high Tg polymer strand can be at least 50° C. greater than the Tg of the low Tg polymer strand, and the average refractive index of the monomers of the low Tg polymer strand can be within 1% of the average refractive index of the monomers of the high Tg polymer strand.

Abstract: Examples provide inkjet ink sets and related methods. An ink set may include a pre-treatment fixing fluid, an ink, and a post-treatment fluid including a binder and a surfactant having a hydrophilic-lipophilic balance (HLB) value of greater than about 12.

Abstract: Examples provide inkjet ink sets and related methods. An ink set may include a pre-treatment fixing fluid, an ink, and a post-treatment fluid including a wax and a binder present in the post-treatment fluid in a range of about 10 weight percent to about 30 weight percent.

Abstract: Mattresses infested with bed bugs and/or dust mites may be cleaned and sanitized through a series of steps beginning with UV irradiation of the mattress. Next, the mattresses are subject to dry steam of a temperature of approximately 356° F. Odors are then removed from the mattress by immersing the mattress in ozone. The mattress is then vacuumed to remove debris and waste. Next the mattress is heated with infrared heaters which produce a temperature of up to 265° F. Finally, the mattress is again vacuumed to remove any remaining debris. The system is mounted on an enclosed trailer so that the system may be transported to a home, hospital, hotel or dormitory to clean and sanitize the mattresses. The system may also be contained within a building for a more permanent location.

Abstract: A convertible pump formed of wound flexible tubing having an inlet communicating water to an outlet at an opposite end of the tubing. A paddle wheel with collapsible fins provides power to rotate the pump when in a vertical position. A planar surface of the wound tubing forms a table when pivoted on a stand to a horizontal disposition with the support surface for the stand.

Abstract: The present disclosure provides fixer fluid compositions and related systems and methods. In one example, a fixer fluid can comprise a liquid vehicle, a surfactant, and a cationic polymer. The liquid vehicle can include water and co-solvent having a boiling point from 160° C. to 250° C., the co-solvent present in the fixer fluid in an amount of 1 wt % to 40 wt %. The surfactant can be present in the fixer fluid in an amount of 0.1 wt % to 10 wt %. The cationic polymer can be present in the fixer fluid in an amount of 0.1 wt % to 25 wt %. The fixer fluid can be formulated for printing on non-porous media and does not include more than 5 wt % volatile co-solvent and more than 3 wt % non-volatile co-solvent.

Abstract: The present disclosure provides latexes and related methods and inkjet inks incorporating such latexes. A latex particulate can comprising multiple intermingled discrete polymer strands, including a low Tg polymer strand having a Tg below 50° C. and a high Tg polymer strand having a Tg at 50° C. or above. The Tg of the high Tg polymer strand can be at least 50° C. greater than the Tg of the low Tg polymer strand, and the average refractive index of the monomers of the low Tg polymer strand can be within 1% of the average refractive index of the monomers of the high Tg polymer strand.

Abstract: The present disclosure provides ink-jet inks and associated methods. In one example, an ink jet ink can comprise an ink vehicle, a wax emulsion, and a latex particulate. The latex particulate can comprise multiple intermingled discrete polymer strands, including: a low Tg polymer strand having a Tg below 50° C. and a high Tg polymer strand having a Tg at 50° C. or above. Additionally, the Tg of the high Tg polymer strand can be at least 50° C. greater than the Tg of the low Tg polymer strand.

Abstract: The present disclosure provides a method of inkjet printing on non-porous media including inkjet printing a fixer fluid on the non-porous media and inkjet printing an ink onto the non-porous media, where the printing of the ink is within 125 milliseconds of the printing of the fixer fluid. Thus, the ink is printed to contact the fixer fluid within 125 milliseconds of each being printed. In one example, the fixer fluid can include a liquid vehicle including water and co-solvent having a boiling point from 160° C. to 250° C., a surfactant, and a cationic polymer; and the ink can comprise an anionic pigment dispersion.

Abstract: The present disclosure is drawn to ink sets, printed articles, and related methods. An ink set can comprise a metallic ink and a latex-based overcoat ink. The metallic ink can include a first liquid vehicle and metal particles having an average particle size from 3 nm to 180 nm. The latex-based overcoat ink can include a second liquid vehicle and latex particles having an average particle size from 10 nm to 500 nm and a glass transition temperature from ?20° C. to 200° C.

Abstract: The present disclosure provides a method of inkjet printing on non-porous media comprising inkjet printing a fixer fluid on the non-porous media and inkjet printing an ink onto the non-porous media, where the printing of the ink is within 125 milliseconds of the printing of the fixer fluid. Thus, the ink is printed to contact the fixer fluid within 125 milliseconds of each being printed. In one example, the fixer fluid can comprise a liquid vehicle including water and co-solvent having a boiling point from 160° C. to 250° C., a surfactant, and a cationic polymer; and the ink can comprise an anionic pigment dispersion.

Abstract: The invention disclosed herein is a system and method for cleaning and sanitizing mattresses infested with insects and bacteria. Specifically, mattresses infested with bed bugs and/or dust mites may be cleaned and sanitized through a series of steps beginning with UV irradiation of the mattress. Next, the mattresses are subject to dry steam of a temperature of approximately 356° F. The mattress is then vacuumed to remove debris and waste. Next the mattress is heated with infrared heaters which produce a temperature of up to 265° F. Finally, the mattress is again vacuumed to remove any remaining debris. The system is mounted on an enclosed trailer so that the system may be transported to a home, hospital, hotel or dormitory to clean and sanitize the mattresses.