The present disclosure describes fixer fluids, fluid sets for textile printing, and methods of textile printing. In one example, a fixer fluid can include a fixer vehicle and from 0.5 wt % to 12 wt % of an azetidinium-containing polyamine polymer dispersed in the fixer vehicle. The fixer vehicle can include water, a surfactant, and an acid having from 0 to 6 carbon atoms.

A white ink jet ink composition according to the present disclosure includes hollow resin particles, resin particles, and water. The hollow resin particles have a glass transition temperature of 120° C. or more, the resin particles are composed of an acrylic resin or a urethane resin, and the content of the resin particles is 5% by mass or more relative to the total mass of the ink composition.

Provided are compositions and processes formulated and practiced to reduce the friction-coefficient of the printed area and also of the non-printed areas around the image, wherein the compositions are formulated for use by wet-on-wet techniques in-line of the pre-curing printing process, without pretreating the fabric for softness and smoothness prior to the printing process. The compositions comprise at least 15% by weight of a friction-coefficient reduction agent and having a pH lower than 6.5 so as to effect upon contact immobilization of an ink composition that is being digitally applied on the substrate.

Disclosed herein is a customized garment a method of forming the customized garment. The method involves first forming a garment having an integrated gaiter coupled to a neckline of the customized garment. The integrated gaiter has a customizable insert coupled to a front portion of the integrated gaiter. The integrated gaiter is stretched over a platen so that an entirety of the customizable insert is flat. Heat transfer sublimation is used to transfer imagery from sublimation paper to the customizable insert.

A textile composite contains a sublayer coated with unactivated solid sublimation dyes and incorporated with the layers of the textile composite or placed between a fabric layer and a backing layer. The sublimation dyes are activated with heat and pressure, and dying or coloring the inner strata of the textile composite.

Described are methods and systems for cationizing and dyeing a natural fiber-containing textile, which uses a mono- or di-quaternized cationizing agent. The method includes a step of heating the textile to a temperature in the range of 90° C. to less than 110° C. for a period of time in the range of 1 min to 10 min to react the cationizing agent with the textile. The cationization step in the presence of heat using the halogenated cationization agent of the invention facilitates improved dyeing.

A method for alignment of a pattern printed on a material for an absorbent article by a rotary printing device, including providing a first composition from a first chamber; providing a second composition including a detectable agent from a second chamber; wherein the first composition from the first chamber and the second composition from the second chamber are supplied to the same anilox roller or directly to the same rotary printing cylinder; and printing the first and second compositions on the material for an absorbent article by a rotary printing cylinder.

An inkjet ink composition for textile printing comprising a white pigment, a pigment dispersant, a polyurethane-based binder, a nano-sized layered silicate and an aqueous liquid vehicle. Also described herein is a fluid set comprising said ink and a fixer composition including a cationic polymer and a fixer vehicle; as well as the textile printing method using it.

A jeans manufacturing method is proposed. The jeans manufacturing method includes: preparing a fabric for manufacturing jeans; patterning in which a boundary line of each part constituting the jeans is drawn; cutting the fabric along patterns drawn in the patterning; sewing a plurality of fabrics cut along the patterns in the cutting to form a shape of the jeans; and mounting buttons and a zipper to the jeans formed through the sewing.

The present disclosure describes fluid sets for printing, methods of textile printing, and textile printing systems. In one example, a fluid set for printing can include a pretreat composition, a fixer composition, and a white ink composition. The pretreat composition can include water and an emulsion of a silicone polymer having amino groups. The fixer composition can include a liquid vehicle and a cationic polymer. The white ink composition can include a liquid vehicle, a white pigment dispersion, and a polymeric binder.